NZ753636B2 - Bipyrazole derivatives as jak inhibitors - Google Patents
Bipyrazole derivatives as jak inhibitors Download PDFInfo
- Publication number
- NZ753636B2 NZ753636B2 NZ753636A NZ75363614A NZ753636B2 NZ 753636 B2 NZ753636 B2 NZ 753636B2 NZ 753636 A NZ753636 A NZ 753636A NZ 75363614 A NZ75363614 A NZ 75363614A NZ 753636 B2 NZ753636 B2 NZ 753636B2
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- New Zealand
- Prior art keywords
- alkyl
- cyanomethyl
- mmol
- compound
- salt
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Classifications
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K31/00—Medicinal preparations containing organic active ingredients
- A61K31/33—Heterocyclic compounds
- A61K31/395—Heterocyclic compounds having nitrogen as a ring hetero atom, e.g. guanethidine or rifamycins
- A61K31/41—Heterocyclic compounds having nitrogen as a ring hetero atom, e.g. guanethidine or rifamycins having five-membered rings with two or more ring hetero atoms, at least one of which being nitrogen, e.g. tetrazole
- A61K31/415—1,2-Diazoles
- A61K31/4155—1,2-Diazoles non condensed and containing further heterocyclic rings
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61P—SPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
- A61P29/00—Non-central analgesic, antipyretic or antiinflammatory agents, e.g. antirheumatic agents; Non-steroidal antiinflammatory drugs [NSAID]
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61P—SPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
- A61P35/00—Antineoplastic agents
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61P—SPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
- A61P37/00—Drugs for immunological or allergic disorders
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61P—SPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
- A61P37/00—Drugs for immunological or allergic disorders
- A61P37/02—Immunomodulators
- A61P37/06—Immunosuppressants, e.g. drugs for graft rejection
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- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07D—HETEROCYCLIC COMPOUNDS
- C07D401/00—Heterocyclic compounds containing two or more hetero rings, having nitrogen atoms as the only ring hetero atoms, at least one ring being a six-membered ring with only one nitrogen atom
- C07D401/14—Heterocyclic compounds containing two or more hetero rings, having nitrogen atoms as the only ring hetero atoms, at least one ring being a six-membered ring with only one nitrogen atom containing three or more hetero rings
-
- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07D—HETEROCYCLIC COMPOUNDS
- C07D403/00—Heterocyclic compounds containing two or more hetero rings, having nitrogen atoms as the only ring hetero atoms, not provided for by group C07D401/00
- C07D403/14—Heterocyclic compounds containing two or more hetero rings, having nitrogen atoms as the only ring hetero atoms, not provided for by group C07D401/00 containing three or more hetero rings
Abstract
The present invention provides the compound 4-[3-(cyanomethyl)-3-(3’,5’-dimethyl-1H,1’H-4,4’-bipyrazol-1-yl)azetindin-1-yl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoro-1-methylethyl]benazmide, or pharmaceutically acceptable salts thereof, as well as their compositions and methods of use, that inhibit the activity of Janus kinase (JAK) and are useful in the treatment of diseases related to the activity of JAK including, for example, inflammatory disorders, autoimmune disorders, cancer, and other diseases. ctivity of Janus kinase (JAK) and are useful in the treatment of diseases related to the activity of JAK including, for example, inflammatory disorders, autoimmune disorders, cancer, and other diseases.
Description
BIPYRAZOLE DERIVATIVES AS JAK INHIBITORS
The present Application is a Divisional Application from New Zealand Patent
Application No. 713999. The entire disclosures of New Zealand Patent Application
No. 713999 and its corresponding International Patent Application No.
, are incorporated herein by reference. This application claims
the benefit of priority of U.S. Provisional Appl. No. 61/824,683, filed May 17, 2013,
which is incorporated herein by reference in its entirety.
TECHNICAL FIELD
The present invention provides bipyrazole derivatives, as well as their
compositions and methods of use, that modulate the activity of Janus kinase (JAK)
and are useful in the treatment of diseases related to the activity of JAK including, for
example, inflammatory disorders, autoimmune disorders, cancer, and other diseases.
BACKGROUND
Protein kinases (PKs) regulate diverse biological processes including cell
growth, survival, differentiation, organ formation, morphogenesis, neovascularization,
tissue repair, and regeneration, among others. Protein kinases also play specialized
roles in a host of human diseases including cancer. Cytokines, low-molecular weight
polypeptides or glycoproteins, regulate many pathways involved in the host
inflammatory response to sepsis. Cytokines influence cell differentiation,
proliferation and activation, and can modulate both pro-inflammatory and anti-
inflammatory responses to allow the host to react appropriately to pathogens.
Signaling of a wide range of cytokines involves the Janus kinase family (JAKs) of
protein tyrosine kinases and Signal Transducers and Activators of Transcription
(STATs). There are four known mammalian JAKs: JAK1 (Janus kinase-1), JAK2,
JAK3 (also known as Janus kinase, leukocyte; JAKL; and L-JAK), and TYK2
(protein-tyrosine kinase 2).
Cytokine-stimulated immune and inflammatory responses contribute to
pathogenesis of diseases: pathologies such as severe combined immunodeficiency
(SCID) arise from suppression of the immune system, while a hyperactive or
inappropriate immune/inflammatory response contributes to the pathology of
autoimmune diseases (e.g., asthma, systemic lupus erythematosus, thyroiditis,
myocarditis), and illnesses such as scleroderma and osteoarthritis (Ortmann, R. A., T.
Cheng, et al. (2000) Arthritis Res 2(1): 16-32).
Deficiencies in expression of JAKs are associated with many disease states.
For example, Jak1-/- mice are runted at birth, fail to nurse, and die perinatally (Rodig,
S. J., M. A. Meraz, et al. (1998) Cell 93(3): 373-83). Jak2-/- mouse embryos are
anemic and die around day 12.5 postcoitum due to the absence of definitive
erythropoiesis.
The JAK/STAT pathway, and in particular all four JAKs, are believed to play
a role in the pathogenesis of asthmatic response, chronic obstructive pulmonary
disease, bronchitis, and other related inflammatory diseases of the lower respiratory
tract. Multiple cytokines that signal through JAKs have been linked to inflammatory
diseases/conditions of the upper respiratory tract, such as those affecting the nose and
sinuses (e.g., rhinitis and sinusitis) whether classically allergic reactions or not. The
JAK/STAT pathway has also been implicated in inflammatory diseases/conditions of
the eye and chronic allergic responses.
Activation of JAK/STAT in cancers may occur by cytokine stimulation (e.g.
IL-6 or GM-CSF) or by a reduction in the endogenous suppressors of JAK signaling
such as SOCS (suppressor or cytokine signaling) or PIAS (protein inhibitor of
activated STAT) (Boudny, V., and Kovarik, J., Neoplasm. 49:349-355, 2002).
Activation of STAT signaling, as well as other pathways downstream of JAKs (e.g.,
Akt), has been correlated with poor prognosis in many cancer types (Bowman, T., et
al. Oncogene 19:2474-2488, 2000). Elevated levels of circulating cytokines that
signal through JAK/STAT play a causal role in cachexia and/or chronic fatigue. As
such, JAK inhibition may be beneficial to cancer patients for reasons that extend
beyond potential anti-tumor activity.
JAK2 tyrosine kinase can be beneficial for patients with myeloproliferative
disorders, e.g., polycythemia vera (PV), essential thrombocythemia (ET), myeloid
metaplasia with myelofibrosis (MMM) (Levin, et al., Cancer Cell, vol. 7, 2005: 387-
397). Inhibition of the JAK2V617F kinase decreases proliferation of hematopoietic
cells, suggesting JAK2 as a potential target for pharmacologic inhibition in patients
with PV, ET, and MMM.
Inhibition of the JAKs may benefit patients suffering from skin immune
disorders such as psoriasis, and skin sensitization. The maintenance of psoriasis is
believed to depend on a number of inflammatory cytokines in addition to various
chemokines and growth factors (JCI, 113:1664-1675), many of which signal through
JAKs (Adv Pharmacol. 2000;47:113-74).
Thus, new or improved agents which inhibit kinases such as JAKs are
continually needed for developing new and more effective pharmaceuticals that are
aimed at augmentation or suppression of the immune and inflammatory pathways
(such as immunosuppressive agents for organ transplants), as well as agents for the
prevention and treatment of autoimmune diseases, diseases involving a hyperactive
inflammatory response (e.g., eczema), allergies, cancer (e.g., prostate, leukemia,
multiple myeloma), and some immune reactions (e.g., skin rash or contact dermatitis
or diarrhea) caused by other therapeutics. The compounds of the invention, as well as
its compositions and methods described herein are directed toward these needs and
other ends.
SUMMARY
The present invention provides, inter alia, compounds of Formula I:
Y Cy
9 10
HN N
1 1 2 7 8 9
and pharmaceutically acceptable salts thereof; wherein Y, Cy , R , R , R , R , R , and
R are defined infra.
The present invention further provides compositions comprising a compound
of Formula I, or a pharmaceutically acceptable salt thereof, and a pharmaceutically
acceptable carrier.
The present invention further provides methods of modulating an activity of
JAK1 comprising contacting JAK1 with a compound of Formula I, or a
pharmaceutically acceptable salt thereof.
The present invention further provides methods of treating a disease or a
disorder associated with abnormal kinase expression or activity in a patient by
administering to a patient a therapeutically effective amount of a compound of
Formula I, or a pharmaceutically acceptable salt thereof.
The present invention further provides methods of treating an autoimmune
disease, a cancer, a myeloproliferative disorder, a myelodysplastic syndrome (MDS),
an inflammatory disease, a bone resorption disease, or organ transplant rejection in a
patient in need thereof, comprising administering to said patient a therapeutically
effective amount of a compound of Formula I, or a pharmaceutically acceptable salt
thereof.
The present invention also provides compounds of Formula I, or
pharmaceutically acceptable salts thereof, as described herein for use in treatment of
autoimmune diseases, cancer, myeloproliferative disorders, myelodysplastic
syndromes (MDS), inflammatory diseases, a bone resorption disease, or organ
transplant rejection.
The present invention further provides compounds of Formula I as described
herein, or pharmaceutically acceptable salts thereof, for use in modulating JAK1.
The present invention also provides uses of compounds of Formula I as
described herein, or pharmaceutically acceptable salts thereof, for the preparation of
medicaments for use in methods of modulating JAK1.
DESCRIPTION OF DRAWINGS
Figure 1 shows an XRPD pattern characteristic of the salt of Example 14.
Figure 2 shows an XRPD pattern characteristic of the salt of Example 15.
Figure 3 shows an XRPD pattern characteristic of the salt of Example 16.
Figure 4A shows a DSC thermogram characteristic of the salt of Example 17.
Figure 4B shows TGA data characteristic of the salt of Example 17.
Figure 4C shows an XRPD pattern characteristic of the salt of Example 17.
Figure 5A shows a DSC thermogram characteristic of the salt of Example 18.
Figure 5B shows TGA data characteristic of the salt of Example 18.
Figure 5C shows an XRPD pattern characteristic of the salt of Example 18.
Figure 6 shows an XRPD pattern characteristic of the salt of Example 19.
Figure 7A shows a DSC thermogram characteristic of the salt of Example 20.
Figure 7B shows TGA data characteristic of the salt of Example 20.
Figure 7C shows an XRPD pattern characteristic of the salt of Example 20.
Figure 8A shows a DSC thermogram characteristic of the salt of Example 21.
Figure 8B shows an XRPD pattern characteristic of the salt of Example 21.
Figure 9 shows an XRPD pattern characteristic of the salt of Example 22.
DETAILED DESCRIPTION
The present invention provides, inter alia, a compound of Formula I:
Y Cy
9 10
HN N
or a pharmaceutically acceptable salts thereof; wherein:
Cy is phenyl, pyridyl, pyrimidinyl, pyrazinyl, or pyridazinyl, each of which is
3 4 5
optionally substituted by 1, 2, 3, or 4 groups independently selected from R , R , R ,
and R ;
Y is N or CH;
R is C alkyl, C haloalkyl, C cycloalkyl, C cycloalkyl-C alkyl, 4-7
1-6 1-6 3-7 3-7 1-3
membered heterocycloalkyl, 4-7 membered heterocycloalkyl-C1-3 alkyl, phenyl,
phenyl-C alkyl, 5-6 membered heteroaryl or 5-6 membered heteroaryl-C alkyl,
1-3 1-3
each of which is optionally substituted with 1, 2, or 3 substituents independently
selected from fluoro, chloro, C alkyl, -OH, -O(C alkyl), -CN, -CF , -CHF , -
1-3 1-3 3 2
CH F, -NH , -NH(C alkyl), -N(C alkyl) , -C(=O)N(C alkyl) , -C(=O)NH(C
2 2 1-3 1-3 2 1-3 2 1-3
alkyl), -C(=O)NH , -C(=O)O(C alkyl), -S(=O) (C alkyl), -S(=O) (C
2 1-3 2 1-3 2 3-6
cycloalkyl), -C(=O)(C cycloalkyl), and -C(=O)(C alkyl);
3-6 1-3
R is H or C alkyl; wherein said C alkyl is optionally substituted by 1, 2,
1-3 1-3
or 3 substituents independently selected from fluoro, chloro, -OH, -O(C alkyl), -
CN, -CF , -CHF , -CH F, NH , -NH(C alkyl), and -N(C alkyl) ; or
3 2 2 2 1-3 1-3 2
R and R , together with the nitrogen atom to which they are attached, form a
4-, 5- or 6-membered heterocycloalkyl ring, which is optionally substituted with 1, 2,
or 3 substitutents independently selected from F, Cl, -OH, -O(C alkyl), -CN, C
1-3 1-3
alkyl, C haloalkyl, -NH , -NH(C alkyl), -N(C alkyl) , -CH CN, and -CH OH;
1-3 2 1-3 1-3 2 2 2
R is H, F, Cl, -CN, C alkyl, C fluoroalkyl, -O(C alkyl), or -O(C
1-3 1-3 1-3 1-3
fluoroalkyl);
R is H, F, Cl, -CN, C alkyl, C fluoroalkyl, -O(C alkyl), or -OC(C
1-3 1-3 1-3 1-3
fluoroalkyl);
R is H, F, Cl, -CN, C alkyl, C fluoroalkyl, -O(C alkyl), or -OC(C
1-3 1-3 1-3 1-3
fluoroalkyl);
R is H, F, Cl, -CN, C alkyl, C fluoroalkyl, -O(C alkyl), or -OC(C
1-3 1-3 1-3 1-3
fluoroalkyl);
R is H, F, Cl, C alkyl, C haloalkyl, -
1-3 1-3
17 17a 17b 17a 17b 17b 17a 17b
NR R , -NHC(=O)R , -C(=O)NR R , -NHS(=O)2R , or -S(=O)2NR R ,
wherein said C alkyl is optionally substituted with 1, 2, or 3 substituents selected
from F, Cl, -CN, -CF , -CHF , -CH F, -NH , -NH(CH ), -N(CH ) , OH, -OCH , and -
3 2 2 2 3 3 2 3
OCF , -OCHF , and -OCH F;
3 2 2
R is H, F, Cl, C alkyl, or C haloalkyl;
1-3 1-3
R is H, F, Cl, C alkyl, C haloalkyl, cyclopropyl, -CN, -NH , -NH(C
1-3 1-3 2 1-3
alkyl), or -N(C alkyl) , wherein said C alkyl is optionally substituted with 1, 2, or
1-3 2 1-3
3 substituents selected from F, chloro, -CN, -CF , -CHF , -CH F, -NH , and OH;
3 2 2 2
R is H, F, Cl, C alkyl, C haloalkyl, cyclopropyl, -CN, -NH , -NH(C
1-3 1-3 2 1-3
alkyl), or -N(C alkyl) , wherein said C alkyl is optionally substituted with 1, 2, or
1-3 2 1-3
3 substituents selected from F, chloro, -CN, -CF3, -CHF2, -CH2F, -NH2, and OH;
R is C alkyl, phenyl or 5-6 membered heteroaryl, each of which is
optionally substituted with 1, 2, 3 or 4 independently selected R substituents;
R is H or C alkyl;
R is C alkyl optionally substituted with 1, 2, or 3 substituents selected
from F, chloro, -CN, -CF , -CHF , -CH F, -NH , -NH(CH ), -N(CH ) , OH, -OCH ,
3 2 2 2 3 3 2 3
and -OCF , -OCHF , and -OCH F; and
3 2 2
each R is independently selected from halo, -OH, NO , -CN, C alkyl, C
2 1-3 2-3
alkenyl, C alkynyl, C haloalkyl, cyano-C alkyl, HO-C alkyl, CF -C
2-3 1-3 1-3 1-3 3 1-3
hydroxyalkyl, C alkoxy-C alkyl, C cycloalkyl, C alkoxy, C haloalkoxy,
1-3 1-3 3-7 1-3 1-3
H2N-, (C1-3 alkyl)NH-, (C1-3 alkyl)2N-, HS-, C1-3 alkyl-S-, C1-3 alkyl-S(=O)-, C1-3 alkyl-
S(=O) -, carbamyl, C alkylcarbamyl, di(C alkyl)carbamyl, carboxy, C alkyl-
2 1-3 1-3 1-3
C(=O)-, C alkoxy-C(=O)-, C alkyl-C(=O)O-, C alkyl-C(=O)NH-, C alkyl-
1-4 1-3 1-3 1-3
S(=O) NH-, H N-SO -, C alkyl-NH-S(=O) -, (C alkyl) N-S(=O) -, H N-
2 2 2 1-3 2 1-3 2 2 2
S(=O) NH-, C alkyl-NHS(=O) NH-, (C alkyl) N-S(=O) NH-, H N-C(=O)NH-,
2 1-3 2 1-3 2 2 2
C alkyl-NHC(=O)NH-, and (C alkyl) N-C(=O)NH-.
1-3 1-3 2
In some embodiments, the compound is a compound of Formula Ia:
N N X N R
9 10
HN N
or a pharmaceutically acceptable salt thereof.
In some embodiments, the compound is a compound of Formula Ia:
X N R
9 10
HN N
or a pharmaceutically acceptable salt thereof; wherein:
X is N or CR ;
W is N or CR ;
Y is N or CH;
R is C alkyl, C haloalkyl, C cycloalkyl, C cycloalkyl-C alkyl, 4-6
1-6 1-6 3-6 3-6 1-3
membered heterocycloalkyl, or 4-6 membered heterocycloalkyl-C alkyl, each of
which is optionally substituted with 1, 2, or 3 substituents independently selected
from fluoro, chloro, C alkyl, -OH, -O(C alkyl), -CN, -CF , -CHF , -CH F, -
1-3 1-3 3 2 2
NH , -NH(C alkyl), -N(C alkyl) , -C(=O)N(C alkyl) , -C(=O)NH(C
2 1-3 1-3 2 1-3 2 1-3
alkyl), -C(=O)NH , -C(=O)O(C alkyl), -S(=O) (C alkyl), -S(=O) (C
2 1-3 2 1-3 2 3-6
cycloalkyl), -C(=O)(C cycloalkyl), and -C(=O)(C alkyl);
3-6 1-3
R is H or C alkyl; wherein said C alkyl is optionally substituted by 1, 2,
1-3 1-3
or 3 substituents independently selected from fluoro, chloro, -OH, -O(C alkyl), -
CN, -CF , -CHF , -CH F, NH , -NH(C alkyl), and -N(C alkyl) ; or
3 2 2 2 1-3 1-3 2
R and R , together with the nitrogen atom to which they are attached, form a
4-, 5- or 6-membered heterocycloalkyl ring, which is optionally substituted with 1, 2,
or 3 substitutents independently selected from fluoro, -OH, -O(C alkyl), -CN, C
1-3 1-3
alkyl, C haloalkyl, -NH , -NH(C alkyl), -N(C alkyl) , and -CH CN;
1-3 2 1-3 1-3 2 2
R is H, F, Cl, -CN, C alkyl, -OCF , -CF , or -O(C alkyl);
1-3 3 3 1-3
R is H, F, Cl, -CN, C alkyl, or -O(C alkyl);
1-3 1-3
R is H, F, Cl, -CN, C alkyl, or -O(C alkyl);
1-3 1-3
R is H, F, Cl, -CN, or C alkyl;
R is H, F, Cl, C alkyl, C haloalkyl, -
1-3 1-3
17 17a 17b 17a 17b 17b 17a 17b
NR R , -NHC(=O)R , -C(=O)NR R , -NHS(=O)2R , or -S(=O)2NR R ,
wherein said C alkyl is optionally substituted with 1, 2, or 3 substituents selected
from F, Cl, -CN, -CF , -CHF , -CH F, -NH , and OH;
3 2 2 2
R is H, F, Cl, C alkyl, or C haloalkyl;
1-3 1-3
R is H, F, Cl, C alkyl, C haloalkyl, cyclopropyl, -CN, -NH , -NH(C
1-3 1-3 2 1-3
alkyl), or -N(C alkyl) , wherein said C alkyl is optionally substituted with 1, 2, or
1-3 2 1-3
3 substituents selected from F, chloro, -CN, -CF , -CHF , -CH F, -NH , and OH;
3 2 2 2
R is H, F, Cl, C alkyl, C haloalkyl, cyclopropyl, -CN, -NH , -NH(C
1-3 1-3 2 1-3
alkyl), or -N(C alkyl) , wherein said C alkyl is optionally substituted with 1, 2, or
1-3 2 1-3
3 substituents selected from F, chloro, -CN, -CF , -CHF , -CH F, -NH , and OH;
3 2 2 2
R is C1-6 alkyl, phenyl or 5-6 membered heteroaryl, each of which is
optionally substituted with 1, 2, 3 or 4 substituents independently selected from R ;
R is H or C alkyl;
R is C alkyl optionally substituted with 1, 2, or 3 substituents selected
from F, chloro, -CN, -CF , -CHF , -CH F, -NH , and OH and
3 2 2 2
each R is independently selected from halo, -OH, NO , -CN, C alkyl, C
2 1-3 2-3
alkenyl, C alkynyl, C haloalkyl, cyano-C alkyl, HO-C alkyl, CF -C
2-3 1-3 1-3 1-3 3 1-3
hydroxyalkyl, C alkoxy-C alkyl, C cycloalkyl, C alkoxy, C haloalkoxy,
1-3 1-3 3-7 1-3 1-3
H N-, (C alkyl)NH-, (C alkyl) N-, HS-, C alkyl-S-, C alkyl-S(=O)-, C alkyl-
2 1-3 1-3 2 1-3 1-3 1-3
S(=O) -, carbamyl, C alkylcarbamyl, di(C alkyl)carbamyl, carboxy, C alkyl-
2 1-3 1-3 1-3
C(=O)-, C1-4 alkoxy-C(=O)-, C1-3 alkyl-C(=O)O-, C1-3 alkyl-C(=O)NH-, C1-3 alkyl-
S(=O) NH-, H N-SO -, C alkyl-NH-S(=O) -, (C alkyl) N-S(=O) -, H N-
2 2 2 1-3 2 1-3 2 2 2
S(=O) NH-, C alkyl-NHS(=O) NH-, (C alkyl) N-S(=O) NH-, H N-C(=O)NH-,
2 1-3 2 1-3 2 2 2
C alkyl-NHC(=O)NH-, and (C alkyl) N-C(=O)NH-.
1-3 1-3 2
In some embodiments:
R is C alkyl, C haloalkyl, C cycloalkyl, or C cycloalkyl-C alkyl,
1-6 1-6 3-6 3-6 1-3
wherein said C alkyl, C cycloalkyl, and C cycloalkyl-C alkyl, are each
1-6 3-6 3-6 1-3
optionally substituted with 1, 2, or 3 substituents independently selected from fluoro, -
CF , and methyl;
R is H or methyl;
R is H, F, or Cl;
R is H or F;
R is H or F;
R is H or F;
R is H, methyl, ethyl or HO-CH -;
R is H or methyl;
R is H, methyl or ethyl; and
R is H, methyl, ethyl or HO-CH -.
In some embodiments, Y is N.
In some embodiments, Y is CH.
In some embodiments, X is N.
In some embodiments, X is CR .
In some embodiments, R is H or F.
In some embodiments, R is H.
In some embodiments, R is F.
In some embodiments, W is N.
In some embodiments, W is CR .
In some embodiments, R is H, F, or Cl.
In some embodiments, R is H or F.
In some embodiments, R is H.
In some embodiments, R is F.
In some embodiments, R is H or F.
In some embodiments, R is H or F.
In some embodiments, R is H or methyl.
In some embodiments, R is H.
In some embodiments, R is methyl.
In some embodiments, R is C alkyl, C haloalkyl, C cycloalkyl, or C
1-6 1-6 3-6 3-6
cycloalkyl-C alkyl, wherein said C alkyl, C cycloalkyl, and C cycloalkyl-C
1-3 1-6 3-6 3-6 1-3
alkyl, are each optionally substituted with 1, 2, or 3 substituents independently
selected from fluoro, -CF , and methyl.
In some embodiments, R is isopropyl, ethyl, 1-methylpropyl, 2,2,2-trifluoro-
1-methylethyl, 1-cyclopropylethyl, cyclopropyl, 1-trifluoromethylcyclopropyl, 1-
cyclopropyl-2,2,2-trifluoroethyl, 2,2,2-trifluoroethyl, or 2,2-difluoroethyl.
In some embodiments, R is isopropyl, ethyl, 1-methylpropyl, or 2,2,2-
trifluoromethylethyl.
In some embodiments, R is isopropyl
In some embodiments, R is ethyl.
In some embodiments, R is 1-methylpropyl.
In some embodiments, R is 2,2,2-trifluoromethylethyl.
In some embodiments, R is H, methyl, ethyl, or HO-CH -.
In some embodiments, R is H.
In some embodiments, R is methyl.
In some embodiments, R is H or methyl.
In some embodiments, R is H.
In some embodiments, R is H, methyl or ethyl.
In some embodiments, R is H.
In some embodiments, R is methyl.
In some embodiments, R is H, methyl, ethyl, or HO-CH -.
In some embodiments, R is H.
In some embodiments, R is methyl.
In some embodiments, R is ethyl.
In some embodiments, R is HO-CH -.
In some embodiments, the compound is a compound of Formula II:
7 8 R R
9 10
HN N
or a pharmaceutically acceptable salt thereof.
In some embodiments, the compound is a compound of Formula III:
N N R
9 10
HN N
or a pharmaceutically acceptable salt thereof.
In some embodiments, the compound is a compound of Formula IV:
N N R
9 10
HN N
or a pharmaceutically acceptable salt thereof.
In some embodiments, the compound is a compound of Formula IIa:
7 8 R R
9 10
HN N
IIa
or a pharmaceutically acceptable salt thereof.
In some embodiments, the compound is a compound of Formula IIIa:
N N N N R
9 10
HN N
IIIa
or a pharmaceutically acceptable salt thereof.
In some embodiments, the compound is a compound of Formula IVa:
N N R
9 10
HN N
or a pharmaceutically acceptable salt thereof.
In some embodiments, the compound is a compound of Formula Ia, or a
pharmaceutically acceptable salt thereof, wherein:
X is N or CR ;
W is N or CR ;
Y is N or CH;
R is C alkyl, C haloalkyl, C cycloalkyl, or C cycloalkyl-C alkyl,
1-6 1-6 3-6 3-6 1-3
wherein said C alkyl, C cycloalkyl, and C cycloalkyl-C alkyl, are each
1-6 3-6 3-6 1-3
optionally substituted with 1, 2, or 3 substituents independently selected from fluoro, -
CF , and methyl;
R is H or methyl;
R is H, F, or Cl;
R is H or F;
R is H or F;
R is H or F;
R is H, methyl, ethyl or HO-CH -;
R is H or methyl;
R is H, methyl or ethyl; and
R is H, methyl, ethyl or HO-CH -.
In some embodiments, the compound is a compound of Formula II, or a
pharmaceutically acceptable salt thereof, wherein:
R is C alkyl, C haloalkyl, C cycloalkyl, or C cycloalkyl-C alkyl,
1-6 1-6 3-6 3-6 1-3
wherein said C alkyl, C cycloalkyl, and C cycloalkyl-C alkyl, are each
1-6 3-6 3-6 1-3
optionally substituted with 1, 2, or 3 substituents independently selected from fluoro, -
CF , and methyl;
R is H or methyl;
R is H, F, or Cl;
R is H or F;
R is H or F;
R is H or F;
R is H, methyl, ethyl or HO-CH -;
R is H or methyl;
R is H, methyl or ethyl; and
R is H, methyl, ethyl or HO-CH2-.
In some embodiments, the compound is a compound of Formula III, or a
pharmaceutically acceptable salt thereof, wherein:
R is C alkyl, C haloalkyl, C cycloalkyl, or C cycloalkyl-C alkyl,
1-6 1-6 3-6 3-6 1-3
wherein said C alkyl, C cycloalkyl, and C cycloalkyl-C alkyl, are each
1-6 3-6 3-6 1-3
optionally substituted with 1, 2, or 3 substituents independently selected from fluoro, -
CF , and methyl;
R is H or methyl;
R is H, F, or Cl;
R is H or F;
R is H or F;
R is H, methyl, ethyl or HO-CH -;
R is H or methyl;
R is H, methyl or ethyl; and
R is H, methyl, ethyl or HO-CH -.
In some embodiments, the compound is a compound of Formula IV, or a
pharmaceutically acceptable salt thereof, wherein:
R is C alkyl, C haloalkyl, C cycloalkyl, or C cycloalkyl-C alkyl,
1-6 1-6 3-6 3-6 1-3
wherein said C alkyl, C cycloalkyl, and C cycloalkyl-C alkyl, are each
1-6 3-6 3-6 1-3
optionally substituted with 1, 2, or 3 substituents independently selected from fluoro, -
CF3, and methyl;
R is H or methyl;
R is H, F, or Cl;
R is H or F;
R is H, methyl, ethyl or HO-CH -;
R is H or methyl;
R is H, methyl or ethyl; and
R is H, methyl, ethyl or HO-CH -.
In some embodiments, the compound is a compound of Formula IIa, or a
pharmaceutically acceptable salt thereof, wherein:
R is C alkyl, C haloalkyl, C cycloalkyl, or C cycloalkyl-C alkyl,
1-6 1-6 3-6 3-6 1-3
wherein said C alkyl, C cycloalkyl, and C cycloalkyl-C alkyl, are each
1-6 3-6 3-6 1-3
optionally substituted with 1, 2, or 3 substituents independently selected from fluoro, -
CF3, and methyl;
R is H or methyl;
R is H, F, or Cl;
R is H or F;
R is H or F;
R is H or F;
R is H, methyl, ethyl or HO-CH -;
R is H or methyl;
R is H, methyl or ethyl; and
R is H, methyl, ethyl or HO-CH -.
In some embodiments, the compound is a compound of Formula IIIa, or a
pharmaceutically acceptable salt thereof, wherein:
R is C alkyl, C haloalkyl, C cycloalkyl, or C cycloalkyl-C alkyl,
1-6 1-6 3-6 3-6 1-3
wherein said C alkyl, C cycloalkyl, and C cycloalkyl-C alkyl, are each
1-6 3-6 3-6 1-3
optionally substituted with 1, 2, or 3 substituents independently selected from fluoro, -
CF , and methyl;
R is H or methyl;
R is H, F, or Cl;
R is H or F;
R is H or F;
R is H, methyl, ethyl or HO-CH2-;
R is H or methyl;
R is H, methyl or ethyl; and
R is H, methyl, ethyl or HO-CH -.
In some embodiments, the compound is a compound of Formula IVa, wherein:
R is C alkyl, C haloalkyl, C cycloalkyl, or C cycloalkyl-C alkyl,
1-6 1-6 3-6 3-6 1-3
wherein said C alkyl, C cycloalkyl, and C cycloalkyl-C alkyl, are each
1-6 3-6 3-6 1-3
optionally substituted with 1, 2, or 3 substituents independently selected from fluoro, -
CF , and methyl;
R is H or methyl;
R is H, F, or Cl;
R is H or F;
R is H, methyl, ethyl or HO-CH2-;
R is H or methyl;
R is H, methyl or ethyl; and
R is H, methyl, ethyl or HO-CH -.
In some embodiments, the present application provides 5-[3-(cyanomethyl)
(3'-methyl-1H,1'H-4,4'-bipyrazolyl)azetidinyl]-N-[(1S)-2,2,2-trifluoro
methylethyl]pyrazinecarboxamide, or a pharmaceutically acceptable salt thereof.
In some embodiments, the present application provides 5-[3-(cyanomethyl)
(3'-methyl-1H,1'H-4,4'-bipyrazolyl)azetidinyl]-N-isopropylpyrazine
carboxamide. or a pharmaceutically acceptable salt thereof.
In some embodiments, the present application provides 4-[3-(cyanomethyl)
(3'-methyl-1H,1'H-4,4'-bipyrazolyl)azetidinyl]-N-isopropylbenzamide, or a
pharmaceutically acceptable salt thereof.
In some embodiments, the present application provides 4-[3-(cyanomethyl)
(3'-methyl-1H,1'H-4,4'-bipyrazolyl)azetidinyl]-2,5-difluoro-N-[(1S)-2,2,2-
trifluoromethylethyl]benzamide, or a pharmaceutically acceptable salt thereof.
In some embodiments, the present application provides 4-[3-(1H,1'H-4,4'-
bipyrazolyl)(cyanomethyl)azetidinyl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoro
methylethyl]benzamide, or a pharmaceutically acceptable salt thereof.
In some embodiments, the present application provides 5-[3-(cyanomethyl)
(3,3'-dimethyl-1H,1'H-4,4'-bipyrazolyl)azetidinyl]-N-isopropylpyrazine
carboxamide, or a pharmaceutically acceptable salt thereof.
In some embodiments, the present application provides 4-[3-(cyanomethyl)
(3',5'-dimethyl-1H,1'H-4,4'-bipyrazolyl)azetidinyl]-2,5-difluoro-N-[(1S)-2,2,2-
trifluoromethylethyl]benzamide, or a pharmaceutically acceptable salt thereof.
In some embodiments, the present application provides 5-[3-(cyanomethyl)
(3',5'-dimethyl-1H,1'H-4,4'-bipyrazolyl)azetidinyl]-N-isopropylpyrazine
carboxamide, or a pharmaceutically acceptable salt thereof.
In some embodiments, the present application 5-[3-(cyanomethyl)(3',5'-
dimethyl-1H,1'H-4,4'-bipyrazolyl)azetidinyl]-N-[(1S)-2,2,2-trifluoro
methylethyl]pyrazinecarboxamide, or a pharmaceutically acceptable salt thereof.
In some embodiments, the present application provides 5-[3-(cyanomethyl)
(3-methyl-1H,1'H-4,4'-bipyrazolyl)azetidinyl]-N-isopropylpyrazine
carboxamide, or a pharmaceutically acceptable salt thereof.
In some embodiments, the present application provides 5-[3-(cyanomethyl)
(3'-ethyl-1H,1'H-4,4'-bipyrazolyl)azetidinyl]-N-[(1S)-2,2,2-trifluoro
methylethyl]pyrazinecarboxamide, or a pharmaceutically acceptable salt thereof.
In some embodiments, the present application provides 4-{3-(cyanomethyl)
[3'-(hydroxymethyl)-1H,1'H-4,4'-bipyrazolyl]azetidinyl}-2,5-difluoro-N-[(1S)-
2,2,2-trifluoromethylethyl]benzamide, or a pharmaceutically acceptable salt
thereof.
In some embodiments, the present application provides 4-{3-(cyanomethyl)
[3-(hydroxymethyl)-3'-methyl-1H,1'H-4,4'-bipyrazolyl]azetidinyl}-2,5-difluoro-
N-[(1S)-2,2,2-trifluoromethylethyl]benzamide, or a pharmaceutically acceptable
salt thereof.
In some embodiments, the present application provides a salt selected from:
4-[3-(cyanomethyl)(3',5'-dimethyl-1H,1'H-4,4'-bipyrazolyl)azetidin
yl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoromethylethyl]benzamide phosphoric acid
salt;
4-[3-(cyanomethyl)(3',5'-dimethyl-1H,1'H-4,4'-bipyrazolyl)azetidin
yl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoromethylethyl]benzamide hydrochloric acid
salt;
4-[3-(cyanomethyl)(3',5'-dimethyl-1H,1'H-4,4'-bipyrazolyl)azetidin
yl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoromethylethyl]benzamide hydrobromic acid
salt; and
4-[3-(cyanomethyl)(3',5'-dimethyl-1H,1'H-4,4'-bipyrazolyl)azetidin
yl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoromethylethyl]benzamide sulfuric acid salt.
In some embodiments, the salt is 4-[3-(cyanomethyl)(3',5'-dimethyl-
1H,1'H-4,4'-bipyrazolyl)azetidinyl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoro
methylethyl]benzamide phosphoric acid salt. In some embodiments, the salt is a 1:1
stoichiometric ratio of 4-[3-(cyanomethyl)(3',5'-dimethyl-1H,1'H-4,4'-bipyrazol
yl)azetidinyl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoromethylethyl]benzamide to
phosphoric acid. In some embodiments, the salt is crystalline. In some embodiments,
the salt is substantially isolated.
In some embodiments, the salt is 4-[3-(cyanomethyl)(3',5'-dimethyl-
1H,1'H-4,4'-bipyrazolyl)azetidinyl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoro
methylethyl]benzamide hydrochloric acid salt. In some embodiments, the salt is a 1:1
stoichiometric ratio of 4-[3-(cyanomethyl)(3',5'-dimethyl-1H,1'H-4,4'-bipyrazol
yl)azetidinyl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoromethylethyl]benzamide to
hydrochloric acid. In some embodiments, the salt is crystalline. In some
embodiments, the salt is substantially isolated.
In some embodiments, the salt is 4-[3-(cyanomethyl)(3',5'-dimethyl-
1H,1'H-4,4'-bipyrazolyl)azetidinyl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoro
methylethyl]benzamide hydrobromic acid salt. In some embodiments, the salt is a 1:1
stoichiometric ratio of 4-[3-(cyanomethyl)(3',5'-dimethyl-1H,1'H-4,4'-bipyrazol
yl)azetidinyl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoromethylethyl]benzamide to
hydrobromic acid. In some embodiments, the salt is crystalline. In some
embodiments, the salt is substantially isolated.
In some embodiments, the salt is 4-[3-(cyanomethyl)(3',5'-dimethyl-
1H,1'H-4,4'-bipyrazolyl)azetidinyl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoro
methylethyl]benzamide sulfuric acid salt. In some embodiments, the salt is a 1:1
stoichiometric ratio of 4-[3-(cyanomethyl)(3',5'-dimethyl-1H,1'H-4,4'-bipyrazol
yl)azetidinyl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoromethylethyl]benzamide to
sulfuric acid. In some embodiments, the salt is crystalline. In some embodiments, the
salt is substantially isolated.
In some embodiments, the 4-[3-(cyanomethyl)(3',5'-dimethyl-1H,1'H-4,4'-
bipyrazolyl)azetidinyl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoro
methylethyl]benzamide phosphoric acid salt is characterized by a DSC thermogram
having an endothermic peak at about 228 C. In some embodiments, the phosphoric
acid salt has a DSC thermogram substantially as shown in Figure 4A. In some
embodiments, the phosphoric acid salt has at least one XRPD peak, in terms of 2-
theta, selected from about 6.8°, about 16.5°, about 19.8°, about 20.7°, and about
23.6°. In some embodiments, the phosphoric acid salt has at least two XRPD peaks,
in terms of 2-theta, selected from about 6.8°, about 16.5°, about 19.8°, about 20.7°,
and about 23.6°. In some embodiments, the phosphoric acid salt has at least three
XRPD peaks, in terms of 2-theta, selected from about 6.8°, about 16.5°, about 19.8°,
about 20.7°, and about 23.6°. In some embodiments, the phosphoric acid salt has at
least four XRPD peaks, in terms of 2-theta, selected from about 6.8°, about 16.5°,
about 19.8°, about 20.7°, and about 23.6°. In some embodiments, the phorphoric acid
salt has an XRPD profile substantially as shown in Figure 4C.
In some embodiments, the 4-[3-(cyanomethyl)(3',5'-dimethyl-1H,1'H-4,4'-
bipyrazolyl)azetidinyl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoro
methylethyl]benzamide hydrochloric acid salt is characterized by a DSC thermogram
having an endothermic peak at about 213 C. In some embodiments, the hydrochloric
acid salt has a DSC thermogram substantially as shown in Figure 5A. In some
embodiments, the hydrochloric acid salt has at least one XRPD peak, in terms of 2-
theta, selected from about 7.0°, about 12.1°, about 13.7°, about 14.8°, about 15.5°,
about 16.6°, about 17.1°, about 19.7°, about 20.4°, about 20.8°, about 23.9°, about
24.7°, about 25.1°, about 25.7°, about 27.4°, and about 28.3°. In some embodiments,
the hydrochloric acid salt has at least two XRPD peaks, in terms of 2-theta, selected
from about 7.0°, about 12.1°, about 13.7°, about 14.8°, about 15.5°, about 16.6°,
about 17.1°, about 19.7°, about 20.4°, about 20.8°, about 23.9°, about 24.7°, about
.1°, about 25.7°, about 27.4°, and about 28.3°. In some embodiments, the
hydrochloric acid salt has at least three XRPD peaks, in terms of 2-theta, selected
from about 7.0°, about 12.1°, about 13.7°, about 14.8°, about 15.5°, about 16.6°,
about 17.1°, about 19.7°, about 20.4°, about 20.8°, about 23.9°, about 24.7°, about
.1°, about 25.7°, about 27.4°, and about 28.3°. In some embodiments, the
hydrochloric acid salt has at least four XRPD peaks, in terms of 2-theta, selected from
about 7.0°, about 12.1°, about 13.7°, about 14.8°, about 15.5°, about 16.6°, about
17.1°, about 19.7°, about 20.4°, about 20.8°, about 23.9°, about 24.7°, about 25.1°,
about 25.7°, about 27.4°, and about 28.3°. In some embodiments, the hydrochloric
acid salt has an XRPD profile substantially as shown in Figure 5C.
In some embodiments, the 4-[3-(cyanomethyl)(3',5'-dimethyl-1H,1'H-4,4'-
bipyrazolyl)azetidinyl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoro
methylethyl]benzamide hydrobromic acid salt is characterized by a DSC thermogram
having an endothermic peak at about 203 C. In some embodiments, the hydrobromic
acid salt has a DSC thermogram substantially as shown in Figure 7A. In some
embodiments, the hydrobromic acid salt has at least one XRPD peak, in terms of 2-
theta, selected from about 7.0°, about 14.4°, about 17.1°, about 20.2°, about 21.1°,
about 22.8°, about 23.5°, about 24.9°, about 26.6°, about 27.1°, and about 28.2°. In
some embodiments, the hydrobromic acid salt has least two XRPD peaks, in terms of
2-theta, selected from about 7.0°, about 14.4°, about 17.1°, about 20.2°, about 21.1°,
about 22.8°, about 23.5°, about 24.9°, about 26.6°, about 27.1°, and about 28.2°. In
some embodiments, the hydrobromic acid salt has least three XRPD peaks, in terms
of 2-theta, selected from about 7.0°, about 14.4°, about 17.1°, about 20.2°, about
21.1°, about 22.8°, about 23.5°, about 24.9°, about 26.6°, about 27.1°, and about
28.2°. In some embodiments, the hydrobromic acid salt has least four XRPD peaks,
in terms of 2-theta, selected from about 7.0°, about 14.4°, about 17.1°, about 20.2°,
about 21.1°, about 22.8°, about 23.5°, about 24.9°, about 26.6°, about 27.1°, and
about 28.2°. In some embodiments, the hydrobromic acid salt has an XRPD profile
substantially as shown in Figure 7C.
In some embodiments, the 4-[3-(cyanomethyl)(3',5'-dimethyl-1H,1'H-4,4'-
bipyrazolyl)azetidinyl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoro
methylethyl]benzamide sulfuric acid salt is characterized by a DSC thermogram
having an endothermic peak at about 259 C. In some embodiments, the sulfuric acid
salt is characterized by a DSC thermogram having three endothermic peaks at about
o o o
136 C, about 147 C, and about 259 C. In some embodiments, the sulfuric acid salt
has a DSC thermogram substantially as shown in Figure 8A. In some embodiments,
the sulfuric acid salt has at least one XRPD peak, in terms of 2-theta, selected from
about 7.3°, about 14.7°, about 9.9°, about 19.0°,about 19.6°, about 21.3°, and about
24.6°. In some embodiments, the sulfuric acid salt has at least two XRPD peaks, in
terms of 2-theta, selected from about 7.3°, about 14.7°, about 9.9°, about 19.0°,about
19.6°, about 21.3°, and about 24.6°. In some embodiments, the sulfuric acid salt has
at least three XRPD peaks, in terms of 2-theta, selected from about 7.3°, about 14.7°,
about 9.9°, about 19.0°,about 19.6°, about 21.3°, and about 24.6°. In some
embodiments, the sulfuric acid salt has at least four XRPD peaks, in terms of 2-theta,
selected from about selected from about 7.3°, about 14.7°, about 9.9°, about
19.0°,about 19.6°, about 21.3°, and about 24.6°. In some embodiments, the sulfuric
acid salt has an XRPD profile substantially as shown in Figure 8B.
Different crystalline forms may have different crystalline lattices (e.g., unit
cells) and, usually as a result, have different physical properties. The different salt
forms can be identified by solid state characterization methods such as by X-ray
powder diffraction (XRPD). Other characterization methods such as differential
scanning calorimetry (DSC), thermogravimetric analysis (TGA), dynamic vapor
sorption (DVS), and the like further help identify the form as well as help determine
stability and solvent/water content.
An XRPD pattern of reflections (peaks) is typically considered a fingerprint of
a particular crystalline form. It is well known that the relative intensities of the XRPD
peaks can widely vary depending on, inter alia, the sample preparation technique,
crystal size distribution, various filters used, the sample mounting procedure, and the
particular instrument employed. In some instances, new peaks may be observed or
existing peaks may disappear, depending on the type of the instrument or the settings.
As used herein, the term “peak” refers to a reflection having a relative height/intensity
of at least about 4% of the maximum peak height/intensity. Moreover, instrument
variation and other factors can affect the 2-theta values. Thus, peak assignments, such
as those reported herein, can vary by plus or minus about 0.2° (2-theta), and the term
“substantially” and “about” as used in the context of XRPD herein is meant to
encompass the above-mentioned variations.
In the same way, temperature readings in connection with DSC, TGA, or other
thermal experiments can vary about ±3 °C depending on the instrument, particular
settings, sample preparation, etc. Accordingly, a crystalline form reported herein
having a DSC thermogram “substantially” as shown in any of the Figures or the term
“about” is understood to accommodate such variation.
In some embodiments, the salts described herein are substantially isolated. By
“substantially isolated” is meant that the compound is at least partially or substantially
separated from the environment in which it was formed or detected. Partial separation
can include, for example, a composition enriched in the salts described herein.
Substantial separation can include compositions containing at least about 50%, at least
about 60%, at least about 70%, at least about 80%, at least about 90%, at least about
95%, at least about 97%, or at least about 99% by weight of the salts described herein,
or salt thereof. Methods for isolating compounds and their salts are routine in the art.
It is appreciated that certain features of the invention, which are, for clarity,
described in the context of separate embodiments, can also be provided in
combination in a single embodiment (while the embodiments are intended to be
combined as if written in multiply dependent form). Conversely, various features of
the invention which are, for brevity, described in the context of a single embodiment,
can also be provided separately or in any suitable subcombination.
At various places in the present specification, substituents of compounds of
the invention are disclosed in groups or in ranges. It is specifically intended that the
invention include each and every individual subcombination of the members of such
groups and ranges. For example, the term “C alkyl” is specifically intended to
individually disclose methyl, ethyl, C alkyl, C alkyl, C alkyl, and C alkyl.
3 4 5 6
At various places in the present specification, linking substituents are
described. Where the structure clearly requires a linking group, the Markush
variables listed for that group are understood to be linking groups. For example, if the
structure requires a linking group and the Markush group definition for that variable
lists “alkyl” or “aryl” then it is to be understood that the “alkyl” or “aryl” represents a
linking alkylene group or arylene group, respectively.
At various places in the present specification, rings are described (e.g., “a
piperidine ring”). Unless otherwise specified, these rings can be attached to the rest
of the molecule at any ring member as permitted by valency. For example, the term
“a 2H-tetrahydropyran ring” may refer to a 2H-tetrahydropyran yl, 2H-
tetrahydropyran yl, 2H-tetrahydropyranyl ring, etc.
The term “n-membered” where n is an integer typically describes the number
of ring-forming atoms in a moiety where the number of ring-forming atoms is n. For
example, 2H-tetrahydropyran is an example of a 6-membered heterocycloalkyl ring,
1H-1,2,4-triazole is an example of a 5-membered heteroaryl ring, pyridine is an
example of a 6-membered heteroaryl ring, and 1,2,3,4-tetrahydro-naphthalene is an
example of a 10-membered cycloalkyl group.
For compounds of the invention in which a variable appears more than once,
each variable can be a different moiety independently selected from the group
defining the variable. For example, where a structure is described having two R
groups that are simultaneously present on the same compound, the two R groups can
represent different moieties independently selected from the group defined for R. In
another example, when an optionally multiple substituent is designated in the form:
(CH )
then it is to be understood that substituent R can occur p number of times on the ring,
and R can be a different moiety at each occurrence. It is to be understood that each R
group may replace any hydrogen atom attached to a ring atom, including one or both
of the (CH ) hydrogen atoms. Further, in the above example, should the variable Q
be defined to include hydrogens, such as when Q is said to be CH , NH, etc., any
floating substituent such as R in the above example, can replace a hydrogen of the Q
variable as well as a hydrogen in any other non-variable component of the ring.
As used herein, the phrase “optionally substituted” means unsubstituted or
substituted. As used herein, the term “substituted” means that a hydrogen atom is
removed and replaced by a substituent. It is to be understood that substitution at a
given atom is limited by valency.
As used herein, the term “C alkyl”, employed alone or in combination with
other terms, refers to a saturated hydrocarbon group that may be straight-chain or
branched, having n to m carbon atoms. In some embodiments, the alkyl group
contains 1 to 6, 1 to 4 or 1 to 3 carbon atoms. Examples of alkyl moieties include, but
are not limited to, chemical groups such as methyl, ethyl, n-propyl, isopropyl, n-butyl,
isobutyl, sec-butyl, tert-butyl, n-pentyl, 2-methylbutyl, 3-pentyl, n-hexyl, 1,2,2-
trimethylpropyl, and the like.
As used herein, the term “alkylene”, employed alone or in combination with
other terms, refers to a divalent alkyl linking group, which can be branched or
straight-chain, where the two substituents may be attached any position of the
alkylene linking group. Examples of alkylene groups include, but are not limited to,
ethan-1,2-diyl, propan-1,3-diyl, propan-1,2-diyl, and the like.
As used herein, “C alkenyl” refers to an alkyl group having one or more
double carbon-carbon bonds and having n to m carbons. In some embodiments, the
alkenyl moiety contains 2 to 3 carbon atoms. Example alkenyl groups include, but are
not limited to, ethenyl, n-propenyl, isopropenyl, n-butenyl, sec-butenyl, and the like.
As used herein, “C alkynyl” refers to an alkyl group having one or more
triple carbon-carbon bonds and having n to m carbons. Example alkynyl groups
include, but are not limited to, ethynyl, propynyl, propynyl, and the like. In
some embodiments, the alkynyl moiety contains 2 to 3 carbon atoms.
As used herein, the term “C alkoxy”, employed alone or in combination
with other terms, refers to a group of formula -O-alkyl, wherein the alkyl group has 1
to 3 carbons. Example alkoxy groups include methoxy, ethoxy, and propoxy (e.g., n-
propoxy and isopropoxy).
As used herein, the term “CF -C hydroxyalkyl” refers to a C alkyl group
3 1-3 1-3
substituted by one CF group and one OH group.
The C groups in (C alkyl) N-, (C alkyl) N-S(=O) NH-, and (C
1-3 1-3 2 1-3 2 2 1-3
alkyl) N-C(=O)NH- can be the same or different.
As used herein, the term “carboxy” refers to a group of formula -C(=O)OH.
As used herein, the term “carbamyl” refers to a group of formula -C(=O)-NH .
As used herein, the term “C alkylcarbamyl” refers to a group of
formula -C(=O)-NH(alkyl), wherein the alkyl group has 1 to 3 carbon atoms.
As used herein, the term “di(C -alkyl)carbamyl” refers to a group of
formula -C(=O)N(alkyl)2, wherein the two alkyl groups each has, independently, 1 to
3 carbon atoms.
As used herein, the term “HO-C -alkyl” refers to a group of formula -
alkylene-OH, wherein said alkylene group has n to m carbon atoms. In some
embodiments, the alkylene group has 1 to 3 carbon atoms.
As used herein, the term “C alkoxy-C -alkyl” refers to a group of formula
o-p n-m
-alkylene-O-alkyl, wherein said alkylene group has n to m carbon atoms and said
alkyl group has o to p carbon atoms. In some embodiments, the alkyl and alkylene
groups each independently have 1 to 3 carbon atoms.
As used herein, “halo” or “halogen”, employed alone or in combination with
other terms, includes fluoro, chloro, bromo, and iodo. In some embodiments, the halo
group is fluoro or chloro.
As used herein, the term “C haloalkyl”, employed alone or in combination
with other terms, refers to an C alkyl group having up to {2(n to m)+1} halogen
atoms which may either be the same or different. In some embodiments, the halogen
atoms are fluoro atoms. In some embodiments, the alkyl group has 1-6 or 1-3 carbon
atoms. Example haloalkyl groups include CF , C F , CHF , CCl , CHCl , C Cl , and
3 2 5 2 3 2 2 5
the like. In some embodiments, the haloalkyl group is a fluoroalkyl group.
As used herein, the term “C fluoroalkyl” refers to a C alkyl group that
1-3 1-3
may be partially or completely substituted by fluoro atoms.
As used herein, “C haloalkoxy” refers to a group of formula -O-haloalkyl
having n to m carbon atoms. An example haloalkoxy group is OCF . In some
embodiments, the haloalkoxy group is fluorinated only. In some embodiments, the
alkyl group has 1 to 6 or 1 to 4 carbon atoms.
As used herein, the term “cyano-C alkyl” refers to a C alkyl substituted
n-m n-m
by a cyano group. In some embodiments, the alkyl group has 1 to 3 carbon atoms.
As used herein, the appearance of the term “monocyclic” before the name of a
moiety indicates that the moiety has a single ring.
As used herein, the term “phenylalkyl” refers to a group of formula –alkylene-
phenyl In some embodiments, phenylalkyl is phenyl-C alkyl.
As used herein, the term “cycloalkyl”, employed alone or in combination with
other terms, refers to a non-aromatic cyclic hydrocarbon moiety, which may
optionally contain one or more alkenylene groups as part of the ring structure.
Cycloalkyl groups can include mono- or polycyclic (e.g., having 2, 3 or 4 fused,
spirocyclic, or bridged rings) ring systems. Also included in the definition of
cycloalkyl are moieties that have one or more aromatic rings fused (i.e., having a
bond in common with) to the cycloalkyl ring, for example, benzo derivatives of
cyclopentane, cyclopentene, cyclohexane, and the like. One or more ring-forming
carbon atoms of a cycloalkyl group can be oxidized to form carbonyl linkages. In
some embodiments, cycloalkyl is a 3-7 membered cycloalkyl, which is monocyclic or
bicyclic. In some embodiments, cycloalkyl is a 3-6 or 3-7 monocyclic cycloalkyl.
Examplary cycloalkyl groups include 1,2,3,4-tetrahydro-naphthalene, cyclopropyl,
cyclobutyl, cyclopentyl, cyclohexyl, cycloheptyl, cyclopentenyl, cyclohexenyl,
cyclohexadienyl, cycloheptatrienyl, norbornyl, norpinyl, norcarnyl, adamantyl, and
the like. In some embodiments, the cycloalkyl group is cyclopropyl, cyclobutyl,
cyclopentyl, or cyclohexyl.
As used herein, the term “cycloalkylalkyl” refers to a group of formula –
alkylene-cycloalkyl. In some embodiments, cycloalkylalkyl is C cycloalkyl-C
3-7 1-3
alkyl, wherein the cycloalkyl portion is monocyclic.
As used herein, the term “heteroaryl”, employed alone or in combination with
other terms, refers to a monocyclic or polycyclic (e.g., having 2, 3 or 4 fused rings)
aromatic hydrocarbon moiety, having one or more heteroatom ring members selected
from nitrogen, sulfur and oxygen. In some embodiments, heteroaryl is a 5-6
membered heteroaryl, which is monocyclic or bicyclic, comprising 1 to 5 carbon
atoms and 1, 2, 3, or 4 heteroatom ring members independently selected from
nitrogen, sulfur, and oxygen. When the heteroaryl group contains more than one
heteroatom ring member, the heteroatoms may be the same or different. Example
heteroaryl groups include, but are not limited to, pyridine, pyrimidine, pyrazine,
pyridazine, pyrrole, pyrazole, azolyl, oxazole, thiazole, imidazole, furan, thiophene, or
the like.
A five-membered ring heteroaryl is a heteroaryl with a ring having five ring
atoms wherein one or more (e.g., 1, 2, or 3) ring atoms are independently selected
from N, O, and S. Exemplary five-membered ring heteroaryls are thienyl, furyl,
pyrrolyl, imidazolyl, thiazolyl, oxazolyl, pyrazolyl, isothiazolyl, isoxazolyl, 1,2,3-
triazolyl, tetrazolyl, 1,2,3-thiadiazolyl, 1,2,3-oxadiazolyl, 1,2,4-triazolyl, 1,2,4-
thiadiazolyl, 1,2,4-oxadiazolyl, 1,3,4-triazolyl, 1,3,4-thiadiazolyl, and 1,3,4-
oxadiazolyl.
A six-membered ring heteroaryl is a heteroaryl with a ring having six ring
atoms wherein one or more (e.g., 1, 2, or 3) ring atoms are independently selected
from N, O, and S. Exemplary six-membered ring heteroaryls are pyridyl, pyrazinyl,
pyrimidinyl, triazinyl and pyridazinyl.
As used herein, the term “heteroarylalkyl” refers to a group of formula –
alkylene-heteroaryl. In some embodiments, heteroarylalkyl is 5-6 membered
heteroaryl-C alkyl, wherein the heteroaryl portion is monocyclic, comprising 1 to 5
carbon atoms and 1, 2, 3, or 4 heteroatom ring members independently selected from
nitrogen, sulfur and oxygen.
As used herein, the term “heterocycloalkyl”, employed alone or in
combination with other terms, refers to non-aromatic ring system, which may
optionally contain one or more alkenylene or alkynylene groups as part of the ring
structure, and which has at least one heteroatom ring member independently selected
from nitrogen, sulfur and oxygen. When the heterocycloalkyl groups contains more
than one heteroatom, the heteroatoms may be the same or different. Heterocycloalkyl
groups can include mono- or polycyclic (e.g., having 2, 3 or 4 fused, spirocyclic, or
bridged rings) ring systems. Also included in the definition of heterocycloalkyl are
moieties that have one or more aromatic rings fused (i.e., having a bond in common
with) to the non-aromatic ring, for example, 1,2,3,4-tetrahydro-quinoline and the like.
The carbon atoms or heteroatoms in the ring(s) of the heterocycloalkyl group can be
oxidized to form a carbonyl, or sulfonyl group (or other oxidized linkage) or a
nitrogen atom can be quaternized. In some embodiments, heterocycloalkyl is 4-7
membered heterocycloalkyl, which is monocyclic, comprising 2-6 carbon atoms and
1, 2, 3, or 4 heteroatom ring members independently selected from nitrogen, sulfur,
and oxygen. Examples of heterocycloalkyl groups include azetidine, azepane,
pyrrolidine, piperidine, piperazine, morpholine, thiomorpholine, pyran, and a 2-oxo-
1,3-oxazolidine ring.
As used herein, the term “heterocycloalkylalkyl” refers to a group of
formula -alkylene-heterocycloalkyl. In some embodiments, heterocycloalkylalkyl is
4-7 membered heterocycloalkyl-C alkyl, wherein the heterocycloalkyl portion is
monocyclic, comprising 2-6 carbon atoms and 1, 2, 3, or 4 heteroatom ring members
independently selected from nitrogen, sulfur and oxygen.
The compounds described herein can be asymmetric (e.g., having one or more
stereocenters). All stereoisomers, such as enantiomers and diastereomers, are intended
unless otherwise indicated. Compounds of the present invention that contain
asymmetrically substituted carbon atoms can be isolated in optically active or racemic
forms. Methods on how to prepare optically active forms from optically inactive
starting materials are known in the art, such as by resolution of racemic mixtures or
by stereoselective synthesis. Many geometric isomers of olefins, C=N double bonds,
and the like can also be present in the compounds described herein, and all such stable
isomers are contemplated in the present invention. Cis and trans geometric isomers of
the compounds of the present invention are described and may be isolated as a
mixture of isomers or as separated isomeric forms.
Resolution of racemic mixtures of compounds can be carried out by any of
numerous methods known in the art. An example method includes fractional
recrystallizaion using a chiral resolving acid which is an optically active, salt-forming
organic acid. Suitable resolving agents for fractional recrystallization methods are, for
example, optically active acids, such as the D and L forms of tartaric acid,
diacetyltartaric acid, dibenzoyltartaric acid, mandelic acid, malic acid, lactic acid or
the various optically active camphorsulfonic acids such as β-camphorsulfonic acid.
Other resolving agents suitable for fractional crystallization methods include
stereoisomerically pure forms of α-methylbenzylamine (e.g., S and R forms, or
diastereomerically pure forms), 2-phenylglycinol, norephedrine, ephedrine, N-
methylephedrine, cyclohexylethylamine, 1,2-diaminocyclohexane, and the like.
Resolution of racemic mixtures can also be carried out by elution on a column
packed with an optically active resolving agent (e.g., dinitrobenzoylphenylglycine).
Suitable elution solvent composition can be determined by one skilled in the art.
Compounds of the invention also include tautomeric forms. Tautomeric forms
result from the swapping of a single bond with an adjacent double bond together with
the concomitant migration of a proton. Tautomeric forms include prototropic
tautomers which are isomeric protonation states having the same empirical formula
and total charge. Example prototropic tautomers include ketone – enol pairs, amide -
imidic acid pairs, lactam – lactim pairs, enamine – imine pairs, and annular forms
where a proton can occupy two or more positions of a heterocyclic system, for
example, 1H- and 3H-imidazole, 1H-, 2H- and 4H- 1,2,4-triazole, 1H- and 2H-
isoindole, and 1H- and 2H-pyrazole. Tautomeric forms can be in equilibrium or
sterically locked into one form by appropriate substitution. For example, it will be
recognized that the following pyrazole ring may form two tautomers:
It is intended that the claims cover both tautomers.
Compounds of the invention can also include all isotopes of atoms occurring
in the intermediates or final compounds. Isotopes include those atoms having the
same atomic number but different mass numbers. For example, isotopes of hydrogen
include tritium and deuterium. In some embodiments, 1, 2, or 3 CH groups in the
azetidine ring of Formula I are replaced by a CHD or CD group. In some
embodiments, 1, 2, or 3 CH or CH groups in the piperidine ring of Formula I are
replaced by a CHD, CD or CD group, respectively. In some embodiments, 1, 2, 3, 4,
or 5 CH or CH groups in the piperidine ring of Formula I are replaced by a CHD,
CD or CD group, respectively.
The term, “compound,” as used herein is meant to include all stereoisomers,
geometric iosomers, tautomers, and isotopes of the structures depicted. Further,
compounds herein identified by name or structure as one particular tautomeric form
are intended to include other tautomeric forms unless otherwise specified.
All compounds, and pharmaceutically acceptable salts thereof, can be found
together with other substances such as water and solvents (e.g., hydrates and solvates)
or can be isolated.
In some embodiments, the compounds of the invention, or salts thereof, are
substantially isolated. By “substantially isolated” is meant that the compound is at
least partially or substantially separated from the environment in which it was formed
or detected. Partial separation can include, for example, a composition enriched in the
compounds of the invention. Substantial separation can include compositions
containing at least about 50%, at least about 60%, at least about 70%, at least about
80%, at least about 90%, at least about 95%, at least about 97%, or at least about 99%
by weight of the compounds of the invention, or salt thereof. Methods for isolating
compounds and their salts are routine in the art.
The phrase “pharmaceutically acceptable” is employed herein to refer to those
compounds, materials, compositions, and/or dosage forms which are, within the scope
of sound medical judgment, suitable for use in contact with the tissues of human
beings and animals without excessive toxicity, irritation, allergic response, or other
problem or complication, commensurate with a reasonable benefit/risk ratio.
The expressions, “ambient temperature” and “room temperature,” as used
herein, are understood in the art, and refer generally to a temperature, e.g. a reaction
temperature, that is about the temperature of the room in which the reaction is carried
out, for example, a temperature from about 20 ºC to about 30 ºC.
The present invention also includes pharmaceutically acceptable salts of the
compounds described herein. As used herein, "pharmaceutically acceptable salts"
refers to derivatives of the disclosed compounds wherein the parent compound is
modified by converting an existing acid or base moiety to its salt form. Examples of
pharmaceutically acceptable salts include, but are not limited to, mineral or organic
acid salts of basic residues such as amines; alkali or organic salts of acidic residues
such as carboxylic acids; and the like. The pharmaceutically acceptable salts of the
present invention include the non-toxic salts of the parent compound formed, for
example, from non-toxic inorganic or organic acids. The pharmaceutically acceptable
salts of the present invention can be synthesized from the parent compound which
contains a basic or acidic moiety by conventional chemical methods. Generally, such
salts can be prepared by reacting the free acid or base forms of these compounds with
a stoichiometric amount of the appropriate base or acid in water or in an organic
solvent, or in a mixture of the two; generally, non-aqueous media like ether, ethyl
acetate, alcohols (e.g., methanol, ethanol, iso-propanol, or butanol) or acetonitrile
(ACN) are preferred. Lists of suitable salts are found in Remington's Pharmaceutical
Sciences, 17th ed., Mack Publishing Company, Easton, Pa., 1985, p. 1418 and
Journal of Pharmaceutical Science, 66, 2 (1977), each of which is incorporated herein
by reference in its entirety. In some embodiments, the compounds described herein
include the N-oxide forms.
Synthesis
Compounds of the invention, including salts thereof, can be prepared using
known organic synthesis techniques and can be synthesized according to any of
numerous possible synthetic routes, such as those in the Schemes below. The
reactions for preparing compounds of the invention can be carried out in suitable
solvents which can be readily selected by one of skill in the art of organic synthesis.
Suitable solvents can be substantially non-reactive with the starting materials
(reactants), the intermediates, or products at the temperatures at which the reactions
are carried out, e.g., temperatures which can range from the solvent's freezing
temperature to the solvent's boiling temperature. A given reaction can be carried out
in one solvent or a mixture of more than one solvent. Depending on the particular
reaction step, suitable solvents for a particular reaction step can be selected by the
skilled artisan.
Preparation of compounds of the invention can involve the protection and
deprotection of various chemical groups. The need for protection and deprotection,
and the selection of appropriate protecting groups, can be readily determined by one
skilled in the art. The chemistry of protecting groups can be found, for example, in
Wuts and Greene, Protective Groups in Organic Synthesis, 4th ed., John Wiley &
Sons: New Jersey, (2007), which is incorporated herein by reference in its entirety.
Reactions can be monitored according to any suitable method known in the
art. For example, product formation can be monitored by spectroscopic means, such
1 13
as nuclear magnetic resonance spectroscopy (e.g., H or C), infrared spectroscopy,
spectrophotometry (e.g., UV-visible), mass spectrometry, or by chromatographic
methods such as high performance liquid chromatography (HPLC) or thin layer
chromatography (TLC).
Compounds of Formula I can be synthesized by procedures analogous to those
in the schemes below. A series of bi-pyrazole derivatives 9 can be prepared
according to the methods outlined in Scheme 1. An aromatic acid 1 can be
conveniently converted to the corresponding amide 2 by using the amide coupling
reagent such as BOP, PyOP, HATU, HBTU, EDC, or CDI. Replacement of the
leaving group Hal (Hal can be halogen, OTs or OTf) in 2 by 3-hydroxyazetidine to
produce compound 3 can be achieved under thermal conditions in a suitable solvent
such as, but not limited to, DMSO, dioxane, DMF, or NMP in the presence of a base
such as potassium carbonate, cesium carbonate, or sodium carbonate; or under
copper-catalyzed Ullmann type N-arylation reaction conditions by using copper(I)
iodide and potassium carbonate; or under palladium-catalyzed C-N bond forming
reaction conditions using xanthpos, BINAP, or P(o-Tol)3 as the ligand and potassium
carbonate or cesium carbonate as the base. α,β-Unsaturated nitrile 5 can be obtained
by Wittig’s reaction of diethyl cyanomethylphosphonate with the ketone 4 which can
be prepared by Swern oxidation of 3. Michael addition of 6 with α,β-unsaturated
nitrile 5 can afford the boronic ester 7. Suzuki coupling of the boronic ester 7 with a
suitable pyrazole halide 8 can afford the corresponding bi-pyrazole derivative 9.
Scheme 1
A series of boronic ester derivatives 7 can be prepared according to the
procedures outlined in Scheme 2. Michael addition of 6 with α,β-unsaturated nitrile
can afford the boronic ester 11. Removal of the Boc-group can be achieved under
acid conditions to afford the corresponding amine 12. Replacement of the leaving
group Hal in 2 by 12 can produce the boronic ester 7 under thermal conditions in a
suitable solvent such as, but not limited to, acetonitrile, DMSO, dioxane, DMF, or
NMP in the presence of a base such as potassium carbonate, cesium carbonate,
sodium carbonate, hunig’s base or DBU.
Scheme 2
A series of bi-pyrazole derivatives 21 can be prepared according to the
methods outlined in Scheme 3. Halo-aromatic esters 13 can be converted to the
corresponding alkenes 14 by Suzuki coupling of the halo-aromatic esters 13 with
vinyl boronic esters. Alkenes 14 can be reacted with appropriately substituted ketenes
(such as dichcloroketene) under 2+2 cycloadditions to give the
dichlorocyclobutanones 15. Under reducing conditions (such as zinc in acetic acid
under thermal conditions) the dichlorocyclobutanones 15 can be converted to
cyclobutanones 16. α,β-Unsaturated nitriles 17 can be formed by reaction of the
cyclobutanones 16 with Horner-Wadsworth-Emmons reagent. Boronic esters 6 can be
reacted with α,β-unsaturated nitriles 17 in Michael addition conditions in the presence
of coupling agents to give the compounds 18. Suzuki coupling of the boronic esters
18 with suitable pyrazole halides 8 can afford the corresponding bi-pyrazoles 19.
Hydrolysis of esters 19 under basic conditions can give the acids 20. The amides 21
can be synthesized by coupling of acids 20 with appropriately substituted amines
using amide coupling reagents such as BOP, PyBop, HATU, HBTU, EDC, or CDI.
Scheme 3
Cl Cl
O O W O
X OR X OR
X OR
11 11 11
14 15
HN
R R B
NC X OR
X OR
16 17
N W O
9 10
X OR 11
11 8
HN N 3
7 8 R
Suzukicoupling 9 10
HN N
N W O
N W O
X OH
X N R
9 10
9 10
HN N
HN N
Processes
The present application provides a process of forming the salts described
herein comprising reacting 4-[3-(cyanomethyl)(3',5'-dimethyl-1H,1'H-4,4'-
bipyrazolyl)azetidinyl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoro
methylethyl]benzamide with an acid selected from phosphoric acid, hydrochloric
acid, hydrobromic acid, and sulfuric acid to form the salt thereof. In some
embodiments, the process utilizes from about 0.55 to 1.5 equivalents of the acid per
equivalent of 4-[3-(cyanomethyl)(3',5'-dimethyl-1H,1'H-4,4'-bipyrazol
yl)azetidinyl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoromethylethyl]benzamide.
In some embodiments, the process comprises reacting 4-[3-(cyanomethyl)
(3',5'-dimethyl-1H,1'H-4,4'-bipyrazolyl)azetidinyl]-2,5-difluoro-N-[(1S)-2,2,2-
trifluoromethylethyl]benzamide with phosphoric acid in a solvent component at a
temperature above room temperature to form the phosphoric acid salt of 4-[3-
(cyanomethyl)(3',5'-dimethyl-1H,1'H-4,4'-bipyrazolyl)azetidinyl]-2,5-
difluoro-N-[(1S)-2,2,2-trifluoromethylethyl]benzamide. In some embodiments, the
temperature is from about 40 C to about 70 C. In some embodiments, the
temperature is about 45 C to about 55 C. In some embodiments, the solvent
component comprises ethanol. In some embodiments, the solvent component
comprises acetonitrile. In some embodiments, the solvent component comprises
isopropanol. In some embodiments, the solvent component comprises methanol. In
some embodiments, the solvent component comprises methanol and isopropanol. In
some embodiments, the solvent component comprises methanol, isopropanol, and n-
heptane. In some embodiments, the process further comprises cooling the mixture to
room temperature and filtering to isolate the salt. In some embodiments, the process
further comprises removing a portion of the solvent to form a concentrated mixture
before said filtering. In some embodiments, a portion of the solvent is removed by
distillation.
The present application further provides a process of forming 4-[3-
(cyanomethyl)(3',5'-dimethyl-1H,1'H-4,4'-bipyrazolyl)azetidinyl]-2,5-
difluoro-N-[(1S)-2,2,2-trifluoromethylethyl]benzamide phosphoric acid salt,
comprising reacting 4-[3-(cyanomethyl)(3',5'-dimethyl-1H,1'H-4,4'-bipyrazol
yl)azetidinyl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoromethylethyl]benzamide with
phosphoric acid in a solvent component comprising methanol and isopropanol at a
temperature from about 40 C to about 70 C form a mixture comprising phosphoric
acid salt of 4-[3-(cyanomethyl)(3',5'-dimethyl-1H,1'H-4,4'-bipyrazolyl)azetidin-
1-yl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoromethylethyl]benzamide phosphoric acid
salt. In some embodiments, the process further comprises adding n-heptane to the
mixture at a temperature from about 40 C to about 70 C to form a second mixture.
In some embodiments, the reacting is conducted at a temperature from about 45 C to
about 55 C. In some embodiments, the reacting is conducted at a temperature of
about 50 C.
In some embodiment, the present application further provides a process of
preparing 4-[3-(cyanomethyl)(3',5'-dimethyl-1H,1'H-4,4'-bipyrazolyl)azetidin
yl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoromethylethyl]benzamide phosphoric acid
salt, comprising:
(a) dissolving the 4-[3-(cyanomethyl)(3',5'-dimethyl-1H,1'H-4,4'-
bipyrazolyl)azetidinyl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoro
methylethyl]benzamide phosphoric acid salt in methanol at a temperature from about
40 C to about 70 C to form a first mixture;
(b) adding n-heptane to the first mixture at a temperature from about 40 C
to about 70 C to form a second mixture; and
(c) cooling the second mixture to provide 4-[3-(cyanomethyl)(3',5'-
dimethyl-1H,1'H-4,4'-bipyrazolyl)azetidinyl]-2,5-difluoro-N-[(1S)-2,2,2-
trifluoromethylethyl]benzamide phosphoric acid salt.
In some embodiments, the process of the preceding embodiment further
comprises distilling at least a portion of the methanol from the first mixture prior to
step (b). In some embodiments, the process the preceding embodiment further
comprises distilling at least a portion of the methanol and/or n-heptane from the
second mixture prior to step (c). In some embodiments, steps (a) and (b) are
conducted at a temperature from about 45 C to about 55 C. In some embodiments,
steps (a) and (b) are conducted at a temperature of about 50 C.
In some embodiments, the process comprises reacting 4-[3-(cyanomethyl)
(3',5'-dimethyl-1H,1'H-4,4'-bipyrazolyl)azetidinyl]-2,5-difluoro-N-[(1S)-2,2,2-
trifluoromethylethyl]benzamide with hydrochloric acid in a solvent component at a
temperature above room temperature to form the hydrochloric acid salt of 4-[3-
(cyanomethyl)(3',5'-dimethyl-1H,1'H-4,4'-bipyrazolyl)azetidinyl]-2,5-
difluoro-N-[(1S)-2,2,2-trifluoromethylethyl]benzamide. In some embodiments, the
reacting is conducted at a temperature at about room temperature. In some
embodiments, the solvent component comprises 2-butanol. In some embodiments,
the solvent component comprises isopropanol. In some embodiments, the solvent
component comprises isopropanol and isopropylacetate. In some embodiments, the
process further comprises filtering to isolate the salt. In some embodiments, the
process further comprises washing the isolated salt with methyl tert-butyl ether.
In some embodiments, the process comprises reacting 4-[3-(cyanomethyl)
(3',5'-dimethyl-1H,1'H-4,4'-bipyrazolyl)azetidinyl]-2,5-difluoro-N-[(1S)-2,2,2-
trifluoromethylethyl]benzamide with hydrobromic acid in a solvent component at a
temperature above room temperature to form the hydrobromic acid salt of 4-[3-
(cyanomethyl)(3',5'-dimethyl-1H,1'H-4,4'-bipyrazolyl)azetidinyl]-2,5-
difluoro-N-[(1S)-2,2,2-trifluoromethylethyl]benzamide. In some embodiments, the
reacting is conducted at a temperature at about room temperature. In some
embodiments, the solvent component comprises isopropanol. In some embodiments,
the solvent component comprises isopropanol and water. In some embodiments, the
process further comprises filtering to isolate the salt. In some embodiments, the
process further comprises washing the isolated salt with methyl tert-butyl ether.
In some embodiments, the process comprises reacting 4-[3-(cyanomethyl)
(3',5'-dimethyl-1H,1'H-4,4'-bipyrazolyl)azetidinyl]-2,5-difluoro-N-[(1S)-2,2,2-
trifluoromethylethyl]benzamide with sulfuric acid in a solvent component to form
the sulfuric acid salt of 4-[3-(cyanomethyl)(3',5'-dimethyl-1H,1'H-4,4'-bipyrazol
yl)azetidinyl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoromethylethyl]benzamide. In
some embodiments, the reacting is conducted at a temperature at about room
temperature. In some embodiments, the solvent component comprises isopropanol.
In some embodiments, the process further comprises filtering to isolate the salt. In
some embodiments, the reacting is conducted at a temperature at about 60 C. In
some embodiments, the solvent component comprises isopropanol and water. In
some embodiments, the process further comprises cooling the mixture to room
temperature and filtering to isolate the salt. In some embodiments, the process further
comprises washing the isolated salt with methyl tert-butyl ether.
Methods
Compounds of the invention are JAK inhibitors, and the majority of the
compounds of the invention, are JAK1 selective inhibitors. A JAK1 selective
inhibitor is a compound that inhibits JAK1 activity preferentially over other Janus
kinases. For example, the compounds of the invention preferentially inhibit JAK1
over one or more of JAK2, JAK3, and TYK2. In some embodiments, the compounds
inhibit JAK1 preferentially over JAK2 (e.g., have a JAK1/JAK2 IC ratio >1). In
some embodiments, the compounds are about 10-fold more selective for JAK1 over
JAK2. In some embodiments, the compounds are about 3-fold, about 5-fold, about
-fold, about 15-fold, or about 20-fold more selective for JAK1 over JAK2 as
calculated by measuring IC at 1 mM ATP (e.g., see Example A).
JAK1 plays a central role in a number of cytokine and growth factor signaling
pathways that, when dysregulated, can result in or contribute to disease states. For
example, IL-6 levels are elevated in rheumatoid arthritis, a disease in which it has
been suggested to have detrimental effects (Fonesca, J.E. et al., Autoimmunity
Reviews, 8:538-42, 2009). Because IL-6 signals, at least in part, through JAK1,
antagonizing IL-6 directly or indirectly through JAK1 inhibition is expected to
provide clinical benefit (Guschin, D., N., et al Embo J 14:1421, 1995; Smolen, J. S.,
et al. Lancet 371:987, 2008). Moreover, in some cancers JAK1 is mutated resulting in
constitutive undesirable tumor cell growth and survival (Mullighan CG, Proc Natl
Acad Sci U S A.106:9414-8, 2009; Flex E., et al.J Exp Med. 205:751-8, 2008). In
other autoimmune diseases and cancers elevated systemic levels of inflammatory
cytokines that activate JAK1 may also contribute to the disease and/or associated
symptoms. Therefore, patients with such diseases may benefit from JAK1 inhibition.
Selective inhibitors of JAK1 may be efficacious while avoiding unnecessary and
potentially undesirable effects of inhibiting other JAK kinases.
Selective inhibitors of JAK1, relative to other JAK kinases, may have multiple
therapeutic advantages over less selective inhibitors. With respect to selectivity
against JAK2, a number of important cytokines and growth factors signal through
JAK2 including, for example, erythropoietin (Epo) and thrombopoietin (Tpo)
(Parganas E, et al. Cell. 93:385-95, 1998). Epo is a key growth factor for red blood
cells production; hence a paucity of Epo-dependent signaling can result in reduced
numbers of red blood cells and anemia (Kaushansky K, NEJM 354:2034-45, 2006).
Tpo, another example of a JAK2-dependent growth factor, plays a central role in
controlling the proliferation and maturation of megakaryocytes – the cells from which
platelets are produced (Kaushansky K, NEJM 354:2034-45, 2006). As such, reduced
Tpo signaling would decrease megakaryocyte numbers (megakaryocytopenia) and
lower circulating platelet counts (thrombocytopenia). This can result in undesirable
and/or uncontrollable bleeding. Reduced inhibition of other JAKs, such as JAK3 and
Tyk2, may also be desirable as humans lacking functional version of these kinases
have been shown to suffer from numerous maladies such as severe-combined
immunodeficiency or hyperimmunoglobulin E syndrome (Minegishi, Y, et al.
Immunity 25:745-55, 2006; Macchi P, et al. Nature. 377:65-8, 1995). Therefore a
JAK1 inhibitor with reduced affinity for other JAKs would have significant
advantages over a less-selective inhibitor with respect to reduced side effects
involving immune suppression, anemia and thrombocytopenia.
Another aspect of the present invention pertains to methods of treating a JAK-
associated disease or disorder in an individual (e.g., patient) by administering to the
individual in need of such treatment a therapeutically effective amount or dose of a
compound of the present invention or a pharmaceutical composition thereof. A JAK-
associated disease can include any disease, disorder or condition that is directly or
indirectly linked to expression or activity of the JAK, including overexpression and/or
abnormal activity levels. A JAK-associated disease can also include any disease,
disorder or condition that can be prevented, ameliorated, or cured by modulating JAK
activity.
Examples of JAK-associated diseases include diseases involving the immune
system including, for example, organ transplant rejection (e.g., allograft rejection and
graft versus host disease).
Further examples of JAK-associated diseases include autoimmune diseases
such as multiple sclerosis, rheumatoid arthritis, juvenile arthritis, psoriatic arthritis,
type I diabetes, lupus, psoriasis, inflammatory bowel disease, ulcerative colitis,
Crohn’s disease, myasthenia gravis, immunoglobulin nephropathies, myocarditis,
autoimmune thyroid disorders, chronic obstructive pulmonary disease (COPD), and
the like. In some embodiments, the autoimmune disease is an autoimmune bullous
skin disorder such as pemphigus vulgaris (PV) or bullous pemphigoid (BP).
Further examples of JAK-associated diseases include allergic conditions such
as asthma, food allergies, eszematous dermatitis, contact dermatitis, atopic dermatitis
(atropic eczema), and rhinitis. Further examples of JAK-associated diseases include
viral diseases such as Epstein Barr Virus (EBV), Hepatitis B, Hepatitis C, HIV,
HTLV 1, Varicella-Zoster Virus (VZV) and Human Papilloma Virus (HPV).
Further examples of JAK-associated disease include diseases associated with
cartilage turnover, for example, gouty arthritis, septic or infectious arthritis, reactive
arthritis, reflex sympathetic dystrophy, algodystrophy, Tietze syndrome, costal
athropathy, osteoarthritis deformans endemica, Mseleni disease, Handigodu disease,
degeneration resulting from fibromyalgia, systemic lupus erythematosus, scleroderma,
or ankylosing spondylitis.
Further examples of JAK-associated disease include congenital cartilage
malformations, including hereditary chrondrolysis, chrondrodysplasias, and
pseudochrondrodysplasias (e.g., microtia, enotia, and metaphyseal
chrondrodysplasia).
Further examples of JAK-associated diseases or conditions include skin
disorders such as psoriasis (for example, psoriasis vulgaris), atopic dermatitis, skin
rash, skin irritation, skin sensitization (e.g., contact dermatitis or allergic contact
dermatitis). For example, certain substances including some pharmaceuticals when
topically applied can cause skin sensitization. In some embodiments, co-
administration or sequential administration of at least one JAK inhibitor of the
invention together with the agent causing unwanted sensitization can be helpful in
treating such unwanted sensitization or dermatitis. In some embodiments, the skin
disorder is treated by topical administration of at least one JAK inhibitor of the
invention.
In further embodiments, the JAK-associated disease is cancer including those
characterized by solid tumors (e.g., prostate cancer, renal cancer, hepatic cancer,
pancreatic cancer, gastric cancer, breast cancer, lung cancer, cancers of the head and
neck, thyroid cancer, glioblastoma, Kaposi’s sarcoma, Castleman’s disease, uterine
leiomyosarcoma, melanoma etc.), hematological cancers (e.g., lymphoma, leukemia
such as acute lymphoblastic leukemia (ALL), acute myelogenous leukemia (AML) or
multiple myeloma), and skin cancer such as cutaneous T-cell lymphoma (CTCL) and
cutaneous B-cell lymphoma. Example CTCLs include Sezary syndrome and mycosis
fungoides.
In some embodiments, the JAK inhibitors described herein, or in combination
with other JAK inhibitors, such as those reported in U.S. Ser. No. 11/637,545, which
is incorporated herein by reference in its entirety, can be used to treat inflammation-
associated cancers. In some embodiments, the cancer is associated with inflammatory
bowel disease. In some embodiments, the inflammatory bowel disease is ulcerative
colitis. In some embodiments, the inflammatory bowel disease is Crohn’s disease. In
some embodiments, the inflammation-associated cancer is colitis-associated cancer.
In some embodiments, the inflammation-associated cancer is colon cancer or
colorectal cancer. In some embodiments, the cancer is gastric cancer, gastrointestinal
carcinoid tumor, gastrointestinal stromal tumor (GIST), adenocarcinoma, small
intestine cancer, or rectal cancer.
JAK-associated diseases can further include those characterized by expression
of: JAK2 mutants such as those having at least one mutation in the pseudo-kinase
domain (e.g., JAK2V617F); JAK2 mutants having at least one mutation outside of
the pseudo-kinase domain; JAK1 mutants; JAK3 mutants; erythropoietin receptor
(EPOR) mutants; or deregulated expression of CRLF2.
JAK-associated diseases can further include myeloproliferative disorders
(MPDs) such as polycythemia vera (PV), essential thrombocythemia (ET),
myelofibrosis with myeloid metaplasia (MMM), primary myelofibrosis (PMF),
chronic myelogenous leukemia (CML), chronic myelomonocytic leukemia (CMML),
hypereosinophilic syndrome (HES), systemic mast cell disease (SMCD), and the like.
In some embodiments, the myeloproliferative disorder is myelofibrosis (e.g., primary
myelofibrosis (PMF) or post polycythemia vera/essential thrombocythemia
myelofibrosis (Post-PV/ET MF)). In some embodiments, the myeloproliferative
disorder is post- essential thrombocythemia myelofibrosis (Post-ET MF). In some
embodiments, the myeloproliferative disorder is post polycythemia vera myelofibrosis
(Post-PV MF).
In some embodiments, JAK inhibitors described herein can be further used to
treat myelodysplastic syndrome (MDS) in a patient in need thereof. In some
embodiments, said patient is red blood cell transfusion dependent.
As used herein, myelodysplastic syndromes are intended to encompass
heterogeneous and clonal hematopoietic disorders that are characterized by ineffective
hematopoiesis on one or more of the major myeloid cell lineages. Myelodysplastic
syndromes are associated with bone marrow failure, peripheral blood cytopenias, and
a propensity to progress to acute myeloid leukemia (AML). Moreover, clonal
cytogenetic abnormalities can be detected in about 50% of cases with MDS. In 1997,
The World Health Organization (WHO) in conjunction with the Society for
Hematopathology (SH) and the European Association of Hematopathology (EAHP)
proposed new classifications for hematopoietic neoplasms (Harris, et al., J Clin Oncol
1999;17:3835-3849; Vardiman, et al., Blood 2002;100:2292-2302). For MDS, the
WHO utilized not only the morphologic criteria from the French-American-British
(FAB) classification but also incorporated available genetic, biologic, and clinical
characteristics to define subsets of MDS (Bennett, et al., Br J Haematol 1982;51:189-
199). In 2008, the WHO classification of MDS (Table 1) was further refined to allow
precise and prognostically relevant subclassification of unilineage dysplasia by
incorporating new clinical and scientific information (Vardiman, et al., Blood
2009;114:937-951; Swerdlow, et al., WHO Classification of Tumours of
Haematopoietic and Lymphoid Tissues. 4th Edition. Lyon France: IARC Press;
2008:88-103; Bunning and Germing, “Myelodysplastic syndromes/neoplasms” in
Chapter 5, Swerdlow, et al, eds. WHO Classification of Tumours of Haematopoietic
and Lymphoid Tissues. (ed. 4th edition): Lyon, France: IARC Press;2008:88-103).
Table 1. 2008 WHO Classification for De Novo Myelodysplastic
Syndrome
Subtype Blood Bone Marrow
Refractory cytopenia with
Dysplasia in ≥ 10% of 1 cell
unilineage dysplasia Single or Bicytopenia
line, < 5% blasts
(RCUD)
≥ 15% of erythroid precursors
Refractory anemia with
Anemia, no blasts w/ring sideroblasts, erythroid
ring sideroblasts (RARS)
dysplasia only, < 5% blasts
Dysplasia in ≥ 10% of cells in
Refractory cytopenia with Cytopenia(s), < 1 × 10 /L ≥ 2 hematopoietic lineages, ±
multilineage dysplasia monocytes 15% ring sideroblasts, < 5%
blasts
Cytopenia(s), ≤ 2% to Unilineage or multilineage
Refractory anemia with
4% blasts, < 1 × 10 /L dysplasia, No Auer rods, 5% to
excess blasts-1 (RAEB-1)
monocytes 9% blasts
Cytopenia(s), ≤ 5% to Unilineage or multilineage
Refractory anemia with
19% blasts, < 1 × 10 /L dysplasia, ± Auer rods, 10% to
excess blasts-2 (RAEB-2)
monocytes 19% blasts
Unilineage or no dysplasia but
Myelodysplastic syndrome,
Cytopenias characteristic MDS
unclassified (MDS-U)
cytogenetics, < 5% blasts
MDS associated with Anemia, platelets normal Unilineage erythroid. Isolated
isolated del(5q) or increased del(5q), < 5% blasts
In some embodiments, the myelodysplastic syndrome is refractory cytopenia
with unilineage dysplasia (RCUD).
In some embodiments, the myelodysplastic syndrome is refractory anemia
with ring sideroblasts (RARS).
In some embodiments, the myelodysplastic syndrome is refractory cytopenia
with multilineage dysplasia.
In some embodiments, the myelodysplastic syndrome is refractory anemia
with excess blasts-1 (RAEB-1).
In some embodiments, the myelodysplastic syndrome is refractory anemia
with excess blasts-2 (RAEB-2).
In some embodiments, the myelodysplastic syndrome is myelodysplastic
syndrome, unclassified (MDS-U).
In some embodiments, the myelodysplastic syndrome is myelodysplastic
syndrome associated with isolated del(5q).
In some embodiments, the myelodysplastic syndrome is refractory to
erythropoiesis-stimulating agents.
The present invention further provides methods of treating psoriasis or other
skin disorders by administration of a topical formulation containing a compound of
the invention.
In some embodiments, JAK inhibitors described herein can be used to treat
pulmonary arterial hypertension.
The present invention further provides a method of treating dermatological
side effects of other pharmaceuticals by administration of the compound of the
invention. For example, numerous pharmaceutical agents result in unwanted allergic
reactions which can manifest as acneiform rash or related dermatitis. Example
pharmaceutical agents that have such undesirable side effects include anti-cancer
drugs such as gefitinib, cetuximab, erlotinib, and the like. The compounds of the
invention can be administered systemically or topically (e.g., localized to the vicinity
of the dermatitis) in combination with (e.g., simultaneously or sequentially) the
pharmaceutical agent having the undesirable dermatological side effect. In some
embodiments, the compound of the invention can be administered topically together
with one or more other pharmaceuticals, where the other pharmaceuticals when
topically applied in the absence of a compound of the invention cause contact
dermatitis, allergic contact sensitization, or similar skin disorder. Accordingly,
compositions of the invention include topical formulations containing the compound
of the invention and a further pharmaceutical agent which can cause dermatitis, skin
disorders, or related side effects.
Further JAK-associated diseases include inflammation and inflammatory
diseases. Example inflammatory diseases include sarcoidosis, inflammatory diseases
of the eye (e.g., iritis, uveitis, scleritis, conjunctivitis, or related disease),
inflammatory diseases of the respiratory tract (e.g., the upper respiratory tract
including the nose and sinuses such as rhinitis or sinusitis or the lower respiratory
tract including bronchitis, chronic obstructive pulmonary disease, and the like),
inflammatory myopathy such as myocarditis, and other inflammatory diseases. In
some embodiments, the inflammation disease of the eye is blepharitis.
The JAK inhibitors described herein can further be used to treat ischemia
reperfusion injuries or a disease or condition related to an inflammatory ischemic
event such as stroke or cardiac arrest. The JAK inhibitors described herein can
further be used to treat endotoxin-driven disease state (e.g., complications after bypass
surgery or chronic endotoxin states contributing to chronic cardiac failure). The JAK
inhibitors described herein can further be used to treat anorexia, cachexia, or fatigue
such as that resulting from or associated with cancer. The JAK inhibitors described
herein can further be used to treat restenosis, sclerodermitis, or fibrosis. The JAK
inhibitors described herein can further be used to treat conditions associated with
hypoxia or astrogliosis such as, for example, diabetic retinopathy, cancer, or
neurodegeneration. See, e.g., Dudley, A.C. et al. Biochem. J. 2005, 390(Pt 2):427-36
and Sriram, K. et al. J. Biol. Chem. 2004, 279(19):19936-47. Epub 2004 Mar 2, both
of which are incorporated herein by reference in their entirety. The JAK inhibitors
described herein can be used to treat Alzheimer’s disease.
The JAK inhibitors described herein can further be used to treat other
inflammatory diseases such as systemic inflammatory response syndrome (SIRS) and
septic shock.
The JAK inhibitors described herein can further be used to treat gout and
increased prostate size due to, e.g., benign prostatic hypertrophy or benign prostatic
hyperplasia.
Further JAK-associated diseases include bone resorption diseases such as
osteoporosis, osteoarthritis. Bone resorption can also be associated with other
conditions such as hormonal imbalance and/or hormonal therapy, autoimmune disease
(e.g. osseous sarcoidosis), or cancer (e.g. myeloma). The reduction of the bone
resorption due to the JAK inhibitors can be about 10%, about 20%, about 30%, about
40%, about 50%, about 60%, about 70%, about 80%, or about 90%.
In some embodiments, JAK inhibitors described herein can further be used to
treat a dry eye disorder. As used herein, “dry eye disorder” is intended to encompass
the disease states summarized in a recent official report of the Dry Eye Workshop
(DEWS), which defined dry eye as “a multifactorial disease of the tears and ocular
surface that results in symptoms of discomfort, visual disturbance, and tear film
instability with potential damage to the ocular surface. It is accompanied by increased
osmolarity of the tear film and inflammation of the ocular surface.” Lemp, “The
Definition and Classification of Dry Eye Disease: Report of the Definition and
Classification Subcommittee of the International Dry Eye Workshop”, The Ocular
Surface, 5(2), 75-92 April 2007, which is incorporated herein by reference in its
entirety. In some embodiments, the dry eye disorder is selected from aqueous tear-
deficient dry eye (ADDE) or evaporative dry eye disorder, or appropriate
combinations thereof. In some embodiments, the dry eye disorder is Sjogren
syndrome dry eye (SSDE). In some embodiments, the dry eye disorder is non-
Sjogren syndrome dry eye (NSSDE).
In a further aspect, the present invention provides a method of treating
conjunctivitis, uveitis (including chronic uveitis), chorioditis, retinitis, cyclitis,
sclieritis, episcleritis, or iritis; treating inflammation or pain related to corneal
transplant, LASIK (laser assisted in situ keratomileusis), photorefractive keratectomy,
or LASEK (laser assisted sub-epithelial keratomileusis); inhibiting loss of visual
acuity related to corneal transplant, LASIK, photorefractive keratectomy, or LASEK;
or inhibiting transplant rejection in a patient in need thereof, comprising administering
to the patient a therapeutically effective amount of the compound of the invention, or
a pharmaceutically acceptable salt thereof.
Additionally, the compounds of the invention, or in combination with other
JAK inhibitors, such as those reported in U.S. Ser. No. 11/637,545, which is
incorporated herein by reference in its entirety, can be used to treat respiratory
dysfunction or failure associated wth viral infection, such as influenza and SARS.
In some embodiments, the present invention provides a compound of Formula
I, pharmaceutically acceptable salt thereof, as described in any of the embodiments
herein, for use in a method of treating any of the diseases or disorders described
herein. In some embodiments, the present invention provides the use of a compound
of Formula I as described in any of the embodiments herein, for the preparation of a
medicament for use in a method of treating any of the diseases or disorders described
herein.
In some embodiments, the present invention provides a compound of Formula
I as described herein, or a pharmaceutically acceptable salt thereof, for use in a
method of modulating JAK1. In some embodiments, the present invention also
provides use of a compound of Formula I as described herein, or a pharmaceutically
acceptable salt thereof, for the preparation of a medicament for use in a method of
modulating JAK1.
As used herein, the term “contacting” refers to the bringing together of
indicated moieties in an in vitro system or an in vivo system. For example,
“contacting” a JAK with a compound of the invention includes the administration of a
compound of the present invention to an individual or patient, such as a human,
having a JAK, as well as, for example, introducing a compound of the invention into a
sample containing a cellular or purified preparation containing the JAK.
As used herein, the term “individual” or “patient,” used interchangeably,
refers to any animal, including mammals, preferably mice, rats, other rodents, rabbits,
dogs, cats, swine, cattle, sheep, horses, or primates, and most preferably humans.
As used herein, the phrase “therapeutically effective amount” refers to the
amount of active compound or pharmaceutical agent that elicits the biological or
medicinal response that is being sought in a tissue, system, animal, individual or
human by a researcher, veterinarian, medical doctor or other clinician. In some
embodiments, the therapeutically effective amount is about 5 mg to about 1000 mg, or
about 10 mg to about 500 mg.
As used herein, the term “treating” or “treatment” refers to one or more of (1)
preventing the disease; for example, preventing a disease, condition or disorder in an
individual who may be predisposed to the disease, condition or disorder but does not
yet experience or display the pathology or symptomatology of the disease; (2)
inhibiting the disease; for example, inhibiting a disease, condition or disorder in an
individual who is experiencing or displaying the pathology or symptomatology of the
disease, condition or disorder (i.e., arresting further development of the pathology
and/or symptomatology); and (3) ameliorating the disease; for example, ameliorating
a disease, condition or disorder in an individual who is experiencing or displaying the
pathology or symptomatology of the disease, condition or disorder (i.e., reversing the
pathology and/or symptomatology) such as decreasing the severity of disease.
Combination Therapies
The methods described herein can further comprise administering one or more
additional therapeutic agents. The one or more additional therapeutic agents can be
administered to a patient simultaneously or sequentially.
In some embodiments, the method further comprises administering an
additional therapeutic agent selected from IMiDs, an anti-IL-6 agent, an anti–TNF-α
agent, a hypomethylating agent, and a biologic response modifier (BRM).
Generally, a BRM is a substances made from living organisms to treat disease,
which may occur naturally in the body or may be made in the laboratory. Examples
of BRMs include IL-2, interferon, various types of colony-stimulating factors (CSF,
GM-CSF, G-CSF), monoclonal antibodies such as abciximab, etanercept, infliximab,
rituximab, trasturzumab, and high dose ascorbate.
In some embodiments, the anti–TNF-α agent is infliximab, and etanercept.
In some embodiments, the hypomethylating agent is a DNA methyltransferase
inhibitor. In some embodiments, the DNA methyltransferase inhibitor is selected
from 5 azacytidine and decitabine.
Generally, IMiDs are as immunomodulatory agents. In some embodiments,
the IMiD is selected from thalidomide, lenalidomide, pomalidomide, CC-11006, and
CC-10015.
In some embodiments, the method further comprises administering an
additional therapeutic agent selected from anti-thymocyte globulin, recombinant
human granulocyte colony-stimulating factor (G CSF), granulocyte-monocyte CSF
(GM-CSF), a erythropoiesis-stimulating agent (ESA), and cyclosporine.
In some embodiments, the method further comprises administering an
additional JAK inhibitor to the patient. In some embodiments, the additional JAK
inhibitor is tofacitinib or ruxolitinib.
One or more additional pharmaceutical agents such as, for example,
chemotherapeutics, anti-inflammatory agents, steroids, immunosuppressants, as well
as PI3Kδ, mTor, Bcr-Abl, Flt-3, RAF and FAK kinase inhibitors such as, for
example, those described in , which is incorporated herein by
reference in its entirety, or other agents can be used in combination with the
compounds described herein for treatment of JAK-associated diseases, disorders or
conditions. The one or more additional pharmaceutical agents can be administered to
a patient simultaneously or sequentially.
Example chemotherapeutics include proteosome inhibitors (e.g., bortezomib),
thalidomide, revlimid, and DNA-damaging agents such as melphalan, doxorubicin,
cyclophosphamide, vincristine, etoposide, carmustine, and the like.
Example steroids include coriticosteroids such as dexamethasone or
prednisone.
Example Bcr-Abl inhibitors include the compounds, and pharmaceutically
acceptable salts thereof, of the genera and species disclosed in U.S. Pat. No.
,521,184, WO 04/005281, and U.S. Ser. No. 60/578,491, all of which are
incorporated herein by reference in their entirety.
Example suitable Flt-3 inhibitors include compounds, and their
pharmaceutically acceptable salts, as disclosed in WO 03/037347, WO 03/099771,
and WO 04/046120, all of which are incorporated herein by reference in their entirety.
Example suitable RAF inhibitors include compounds, and their
pharmaceutically acceptable salts, as disclosed in WO 00/09495 and WO 05/028444,
both of which are incorporated herein by reference in their entirety.
Example suitable FAK inhibitors include compounds, and their
pharmaceutically acceptable salts, as disclosed in WO 04/080980, WO 04/056786,
WO 03/024967, WO 01/064655, WO 00/053595, and WO 01/014402, all of which
are incorporated herein by reference in their entirety.
In some embodiments, one or more of the compounds of the invention can be
used in combination with one or more other kinase inhibitors including imatinib,
particularly for treating patients resistant to imatinib or other kinase inhibitors.
In some embodiments, a suitable chemotherapeutical agent can be selected
from antimetabolite agents, topoisomerase 1 inhibitors, platinum analogs, taxanes,
anthracyclines, and EGFR inhibitors, and combinations thereof.
In some embodiments, antimetabolite agents include capecitabine,
gemcitabine, and fluorouracil (5-FU).
In some embodiments, taxanes include paclitaxel, Abraxane® (paclitaxel
protein-bound particles for injectable suspension), and Taxotere® (docetaxel).
In some embodiments, platinum analogs include oxaliplatin, cisplatin, and
carboplatin.
In some embodiments, topoisomerase 1 inhibitors include irinotecan and
topotecan.
In some embodiment, anthracyclines include doxorubicin or liposomal
formulations of doxorubicin.
In some embodiments, the chemotherapeutic is FOLFIRINOX (5-FU,
lecovorin, irinotecan and oxaliplatin). In some embodiments, the chemotherapeutic
agent is gemcitabine and Abraxane® (paclitaxel protein-bound particles for injectable
suspension).
In some embodiments, one or more JAK inhibitors of the invention can be
used in combination with a chemotherapeutic in the treatment of cancer, such as
multiple myeloma, and may improve the treatment response as compared to the
response to the chemotherapeutic agent alone, without exacerbation of its toxic
effects. Examples of additional pharmaceutical agents used in the treatment of
multiple myeloma, for example, can include, without limitation, melphalan,
melphalan plus prednisone [MP], doxorubicin, dexamethasone, and Velcade
(bortezomib). Further additional agents used in the treatment of multiple myeloma
include Bcr-Abl, Flt-3, RAF and FAK kinase inhibitors. Additive or synergistic
effects are desirable outcomes of combining a JAK inhibitor of the present invention
with an additional agent. Furthermore, resistance of multiple myeloma cells to agents
such as dexamethasone may be reversible upon treatment with a JAK inhibitor of the
present invention. The agents can be combined with the present compounds in a
single or continuous dosage form, or the agents can be administered simultaneously or
sequentially as separate dosage forms.
In some embodiments, a corticosteroid such as dexamethasone is administered
to a patient in combination with at least one JAK inhibitor where the dexamethasone
is administered intermittently as opposed to continuously.
In some further embodiments, combinations of one or more JAK inhibitors of
the invention with other therapeutic agents can be administered to a patient prior to,
during, and/or after a bone marrow transplant or stem cell transplant.
In some embodiments, the additional therapeutic agent is fluocinolone
acetonide (Retisert®), or rimexolone (AL-2178, Vexol, Alcon).
In some embodiments, the additional therapeutic agent is cyclosporine
(Restasis®).
In some embodiments, the additional therapeutic agent is a corticosteroid. In
some embodiments, the corticosteroid is triamcinolone, dexamethasone, fluocinolone,
cortisone, prednisolone, or flumetholone.
In some embodiments, the additional therapeutic agent is selected from
Dehydrex™ (Holles Labs), Civamide (Opko), sodium hyaluronate (Vismed,
Lantibio/TRB Chemedia), cyclosporine (ST-603, Sirion Therapeutics), ARG101(T)
(testosterone, Argentis), AGR1012(P) (Argentis), ecabet sodium (Senju-Ista),
gefarnate (Santen), 15-(s)-hydroxyeicosatetraenoic acid (15(S)-HETE), cevilemine,
doxycycline (ALTY-0501, Alacrity), minocycline, iDestrin™ (NP50301, Nascent
Pharmaceuticals), cyclosporine A (Nova22007, Novagali), oxytetracycline
(Duramycin, MOLI1901, Lantibio), CF101 (2S,3S,4R,5R)-3,4-dihydroxy[6-[(3-
iodophenyl)methylamino]purinyl]-N-methyl-oxolanecarbamyl, Can-Fite
Biopharma), voclosporin (LX212 or LX214, Lux Biosciences), ARG103 (Agentis),
RX-10045 (synthetic resolvin analog, Resolvyx), DYN15 (Dyanmis Therapeutics),
rivoglitazone (DE011, Daiichi Sanko), TB4 (RegeneRx), OPH-01 (Ophtalmis
Monaco), PCS101 (Pericor Science), REV1-31 (Evolutec), Lacritin (Senju),
rebamipide (Otsuka-Novartis), OT-551 (Othera), PAI-2 (University of Pennsylvania
and Temple University), pilocarpine, tacrolimus, pimecrolimus (AMS981, Novartis),
loteprednol etabonate, rituximab, diquafosol tetrasodium (INS365, Inspire), KLS-
0611 (Kissei Pharmaceuticals), dehydroepiandrosterone, anakinra, efalizumab,
mycophenolate sodium, etanercept (Embrel®), hydroxychloroquine, NGX267
(TorreyPines Therapeutics), actemra, gemcitabine, oxaliplatin, L-asparaginase, or
thalidomide.
In some embodiments, the additional therapeutic agent is an anti-angiogenic
agent, cholinergic agonist, TRP-1 receptor modulator, a calcium channel blocker, a
mucin secretagogue, MUC1 stimulant, a calcineurin inhibitor, a corticosteroid, a
P2Y2 receptor agonist, a muscarinic receptor agonist, an mTOR inhibitor, another
JAK inhibitor, Bcr-Abl kinase inhibitor, Flt-3 kinase inhibitor, RAF kinase inhibitor,
and FAK kinase inhibitor such as, for example, those described in ,
which is incorporated herein by reference in its entirety. In some embodiments, the
additional therapeutic agent is a tetracycline derivative (e.g., minocycline or
doxycline). In some embodiments, the additional therapeutic agent binds to FKBP12.
In some embodiments, the additional therapeutic agent is an alkylating agent
or DNA cross-linking agent; an anti-metabolite/demethylating agent (e.g., 5-
flurouracil, capecitabine or azacitidine); an anti-hormone therapy (e.g., hormone
receptor antagonists, SERMs, or aromotase inhibitor); a mitotic inhibitor (e.g.
vincristine or paclitaxel); an topoisomerase (I or II) inhibitor (e.g. mitoxantrone and
irinotecan); an apoptotic inducers (e.g. ABT-737); a nucleic acid therapy (e.g.
antisense or RNAi); nuclear receptor ligands (e.g., agonists and/or antagonists: all-
trans retinoic acid or bexarotene); epigenetic targeting agents such as histone
deacetylase inhibitors (e.g. vorinostat), hypomethylating agents (e.g. decitabine);
regulators of protein stability such as Hsp90 inhibitors, ubiquitin and/or ubiquitin like
conjugating or deconjugating molecules; or an EGFR inhibitor (erlotinib).
In some embodiments, the additional therapeutic agent(s) are demulcent eye
drops (also known as “artificial tears”), which include, but are not limited to,
compositions containing polyvinylalcohol, hydroxypropyl methylcellulose, glycerin,
polyethylene glycol (e.g. PEG400), or carboxymethyl cellulose. Artificial tears can
help in the treatment of dry eye by compensating for reduced moistening and
lubricating capacity of the tear film. In some embodiments, the additional therapeutic
agent is a mucolytic drug, such as N-acetyl-cysteine, which can interact with the
mucoproteins and, therefore, to decrease the viscosity of the tear film.
In some embodiments, the additional therapeutic agent includes an antibiotic,
antiviral, antifungal, anesthetic, anti-inflammatory agents including steroidal and non-
steroidal anti-inflammatories, and anti-allergic agents. Examples of suitable
medicaments include aminoglycosides such as amikacin, gentamycin, tobramycin,
streptomycin, netilmycin, and kanamycin; fluoroquinolones such as ciprofloxacin,
norfloxacin, ofloxacin, trovafloxacin, lomefloxacin, levofloxacin, and enoxacin;
naphthyridine; sulfonamides; polymyxin; chloramphenicol; neomycin; paramomycin;
colistimethate; bacitracin; vancomycin; tetracyclines; rifampin and its derivatives
(“rifampins”); cycloserine; beta-lactams; cephalosporins; amphotericins; fluconazole;
flucytosine; natamycin; miconazole; ketoconazole; corticosteroids; diclofenac;
flurbiprofen; ketorolac; suprofen; cromolyn; lodoxamide; levocabastin; naphazoline;
antazoline; pheniramine; or azalide antibiotic.
Pharmaceutical Formulations and Dosage Forms
When employed as pharmaceuticals, the compounds of the invention can be
administered in the form of pharmaceutical compositions. These compositions can be
prepared in a manner well known in the pharmaceutical art, and can be administered
by a variety of routes, depending upon whether local or systemic treatment is desired
and upon the area to be treated. Administration may be topical (including
transdermal, epidermal, ophthalmic and to mucous membranes including intranasal,
vaginal and rectal delivery), pulmonary (e.g., by inhalation or insufflation of powders
or aerosols, including by nebulizer; intratracheal or intranasal), oral or parenteral.
Parenteral administration includes intravenous, intraarterial, subcutaneous,
intraperitoneal intramuscular or injection or infusion; or intracranial, e.g., intrathecal
or intraventricular, administration. Parenteral administration can be in the form of a
single bolus dose, or may be, for example, by a continuous perfusion pump.
Pharmaceutical compositions and formulations for topical administration may include
transdermal patches, ointments, lotions, creams, gels, drops, suppositories, sprays,
liquids and powders. Conventional pharmaceutical carriers, aqueous, powder or oily
bases, thickeners and the like may be necessary or desirable.
This invention also includes pharmaceutical compositions which contain, as
the active ingredient, the compound of the invention or a pharmaceutically acceptable
salt thereof, in combination with one or more pharmaceutically acceptable carriers
(excipients). In some embodiments, the composition is suitable for topical
administration. In making the compositions of the invention, the active ingredient is
typically mixed with an excipient, diluted by an excipient or enclosed within such a
carrier in the form of, for example, a capsule, sachet, paper, or other container. When
the excipient serves as a diluent, it can be a solid, semi-solid, or liquid material, which
acts as a vehicle, carrier or medium for the active ingredient. Thus, the compositions
can be in the form of tablets, pills, powders, lozenges, sachets, cachets, elixirs,
suspensions, emulsions, solutions, syrups, aerosols (as a solid or in a liquid medium),
ointments containing, for example, up to 10% by weight of the active compound, soft
and hard gelatin capsules, suppositories, sterile injectable solutions, and sterile
packaged powders.
In preparing a formulation, the active compound can be milled to provide the
appropriate particle size prior to combining with the other ingredients. If the active
compound is substantially insoluble, it can be milled to a particle size of less than 200
mesh. If the active compound is substantially water soluble, the particle size can be
adjusted by milling to provide a substantially uniform distribution in the formulation,
e.g. about 40 mesh.
The compounds of the invention may be milled using known milling
procedures such as wet milling to obtain a particle size appropriate for tablet
formation and for other formulation types. Finely divided (nanoparticulate)
preparations of the compounds of the invention can be prepared by processes known
in the art, e.g., see International App. No. .
Some examples of suitable excipients include lactose, dextrose, sucrose,
sorbitol, mannitol, starches, gum acacia, calcium phosphate, alginates, tragacanth,
gelatin, calcium silicate, microcrystalline cellulose, polyvinylpyrrolidone, cellulose,
water, syrup, and methyl cellulose. The formulations can additionally include:
lubricating agents such as talc, magnesium stearate, and mineral oil; wetting agents;
emulsifying and suspending agents; preserving agents such as methyl- and
propylhydroxy-benzoates; sweetening agents; and flavoring agents. The compositions
of the invention can be formulated so as to provide quick, sustained or delayed release
of the active ingredient after administration to the patient by employing procedures
known in the art.
In some embodiments, the pharmaceutical composition comprises silicified
microcrystalline cellulose (SMCC) and at least one compound described herein, or a
pharmaceutically acceptable salt thereof. In some embodiments, the silicified
microcrystalline cellulose comprises about 98% microcrystalline cellulose and about
2% silicon dioxide w/w.
In some embodiments, the composition is a sustained release composition
comprising at least one compound described herein, or a pharmaceutically acceptable
salt thereof, and at least one pharmaceutically acceptable carrier. In some
embodiments, the composition comprises at least one compound described herein, or
a pharmaceutically acceptable salt thereof, and at least one component selected from
microcrystalline cellulose, lactose monohydrate, hydroxypropyl methylcellulose, and
polyethylene oxide. In some embodiments, the composition comprises at least one
compound described herein, or a pharmaceutically acceptable salt thereof, and
microcrystalline cellulose, lactose monohydrate, and hydroxypropyl methylcellulose.
In some embodiments, the composition comprises at least one compound described
herein, or a pharmaceutically acceptable salt thereof, and microcrystalline cellulose,
lactose monohydrate, and polyethylene oxide. In some embodiments, the
composition further comprises magnesium stearate or silicon dioxide. In some
embodiments, the microcrystalline cellulose is Avicel PH102™. In some
embodiments, the lactose monohydrate is Fast-flo 316™. In some embodiments, the
hydroxypropyl methylcellulose is hydroxypropyl methylcellulose 2208 K4M (e.g.,
Methocel K4 M Premier™) and/or hydroxypropyl methylcellulose 2208 K100LV
(e.g., Methocel K00LV™). In some embodiments, the polyethylene oxide is
polyethylene oxide WSR 1105 (e.g., Polyox WSR 1105™).
In some embodiments, a wet granulation process is used to produce the
composition. In some embodiments, a dry granulation process is used to produce the
composition.
The compositions can be formulated in a unit dosage form, each dosage
containing from about 1 to about 1,000 mg, from about 1 mg to about 100 mg, from 1
mg to about 50 mg, and from about 1 mg to 10 mg of active ingredient. Preferably,
the dosage is from about 1 mg to about 50 mg or about 1 mg to about 10 mg of active
ingredient. In some embodiments, each dosage contains about 10 mg of the active
ingredient. In some embodiments, each dosage contains about 50 mg of the active
ingredient. In some embodiments, each dosage contains about 25 mg of the active
ingredient. The term "unit dosage forms" refers to physically discrete units suitable as
unitary dosages for human subjects and other mammals, each unit containing a
predetermined quantity of active material calculated to produce the desired
therapeutic effect, in association with a suitable pharmaceutical excipient.
In some embodiments, the compositions comprise from about 1 to about 1,000
mg, from about 1 mg to about 100 mg, from 1 mg to about 50 mg, and from about 1
mg to 10 mg of active ingredient. Preferably, the compositions comprise from about
1 mg to about 50 mg or about 1 mg to about 10 mg of active ingredient. One having
ordinary skill in the art will appreciate that this embodies compounds or compositions
containing about 1 mg to about 10 mg, about 1 mg to about 20 mg, about 1 mg to
about 25 mg, about 1 mg to about 50 mg of the active ingredient.
The active compound may be effective over a wide dosage range and is
generally administered in a pharmaceutically effective amount. It will be understood,
however, that the amount of the compound actually administered will usually be
determined by a physician, according to the relevant circumstances, including the
condition to be treated, the chosen route of administration, the actual compound
administered, the age, weight, and response of the individual patient, the severity of
the patient's symptoms, and the like.
For preparing solid compositions such as tablets, the principal active
ingredient is mixed with a pharmaceutical excipient to form a solid preformulation
composition containing a homogeneous mixture of a compound of the present
invention. When referring to these preformulation compositions as homogeneous, the
active ingredient is typically dispersed evenly throughout the composition so that the
composition can be readily subdivided into equally effective unit dosage forms such
as tablets, pills and capsules. This solid preformulation is then subdivided into unit
dosage forms of the type described above containing from, for example, about 0.1 to
about 1000 mg of the active ingredient of the present invention.
The tablets or pills of the present invention can be coated or otherwise
compounded to provide a dosage form affording the advantage of prolonged action.
For example, the tablet or pill can comprise an inner dosage and an outer dosage
component, the latter being in the form of an envelope over the former. The two
components can be separated by an enteric layer which serves to resist disintegration
in the stomach and permit the inner component to pass intact into the duodenum or to
be delayed in release. A variety of materials can be used for such enteric layers or
coatings, such materials including a number of polymeric acids and mixtures of
polymeric acids with such materials as shellac, cetyl alcohol, and cellulose acetate.
The liquid forms in which the compounds and compositions of the present
invention can be incorporated for administration orally or by injection include
aqueous solutions, suitably flavored syrups, aqueous or oil suspensions, and flavored
emulsions with edible oils such as cottonseed oil, sesame oil, coconut oil, or peanut
oil, as well as elixirs and similar pharmaceutical vehicles.
Compositions for inhalation or insufflation include solutions and suspensions
in pharmaceutically acceptable, aqueous or organic solvents, or mixtures thereof, and
powders. The liquid or solid compositions may contain suitable pharmaceutically
acceptable excipients as described supra. In some embodiments, the compositions are
administered by the oral or nasal respiratory route for local or systemic effect.
Compositions in can be nebulized by use of inert gases. Nebulized solutions may be
breathed directly from the nebulizing device or the nebulizing device can be attached
to a face masks tent, or intermittent positive pressure breathing machine. Solution,
suspension, or powder compositions can be administered orally or nasally from
devices which deliver the formulation in an appropriate manner.
Topical formulations can contain one or more conventional carriers. In some
embodiments, ointments can contain water and one or more hydrophobic carriers
selected from, for example, liquid paraffin, polyoxyethylene alkyl ether, propylene
glycol, white Vaseline, and the like. Carrier compositions of creams can be based on
water in combination with glycerol and one or more other components, e.g.
glycerinemonostearate, PEG-glycerinemonostearate and cetylstearyl alcohol. Gels can
be formulated using isopropyl alcohol and water, suitably in combination with other
components such as, for example, glycerol, hydroxyethyl cellulose, and the like. In
some embodiments, topical formulations contain at least about 0.1, at least about 0.25,
at least about 0.5, at least about 1, at least about 2, or at least about 5 wt % of the
compound of the invention. The topical formulations can be suitably packaged in
tubes of, for example, 100 g which are optionally associated with instructions for the
treatment of the select indication, e.g., psoriasis or other skin condition.
The amount of compound or composition administered to a patient will vary
depending upon what is being administered, the purpose of the administration, such as
prophylaxis or therapy, the state of the patient, the manner of administration, and the
like. In therapeutic applications, compositions can be administered to a patient already
suffering from a disease in an amount sufficient to cure or at least partially arrest the
symptoms of the disease and its complications. Effective doses will depend on the
disease condition being treated as well as by the judgment of the attending clinician
depending upon factors such as the severity of the disease, the age, weight and general
condition of the patient, and the like.
The compositions administered to a patient can be in the form of
pharmaceutical compositions described above. These compositions can be sterilized
by conventional sterilization techniques, or may be sterile filtered. Aqueous solutions
can be packaged for use as is, or lyophilized, the lyophilized preparation being
combined with a sterile aqueous carrier prior to administration. The pH of the
compound preparations typically will be between 3 and 11, more preferably from 5 to
9 and most preferably from 7 to 8. It will be understood that use of certain of the
foregoing excipients, carriers, or stabilizers will result in the formation of
pharmaceutical salts.
The therapeutic dosage of a compound of the present invention can vary
according to, for example, the particular use for which the treatment is made, the
manner of administration of the compound, the health and condition of the patient,
and the judgment of the prescribing physician. The proportion or concentration of a
compound of the invention in a pharmaceutical composition can vary depending upon
a number of factors including dosage, chemical characteristics (e.g., hydrophobicity),
and the route of administration. For example, the compounds of the invention can be
provided in an aqueous physiological buffer solution containing about 0.1 to about
% w/v of the compound for parenteral administration. Some typical dose ranges are
from about 1 μg/kg to about 1 g/kg of body weight per day. In some embodiments,
the dose range is from about 0.01 mg/kg to about 100 mg/kg of body weight per day.
The dosage is likely to depend on such variables as the type and extent of progression
of the disease or disorder, the overall health status of the particular patient, the relative
biological efficacy of the compound selected, formulation of the excipient, and its
route of administration. Effective doses can be extrapolated from dose-response
curves derived from in vitro or animal model test systems.
The compositions of the invention can further include one or more additional
pharmaceutical agents such as a chemotherapeutic, steroid, anti-inflammatory
compound, or immunosuppressant, examples of which are listed hereinabove.
In some embodiments, the compound, or pharmaceutically acceptable salt
thereof, is administered as an ophthalmic composition. Accordingly, in some
embodiments, the methods comprise administration of the compound, or
pharmaceutically acceptable salt thereof, and an ophthalmically acceptable carrier. In
some embodiments, the ophthalmic composition is a liquid composition, semi-solid
composition, insert, film, microparticles or nanoparticles.
In some embodiments, the ophthalmic composition is a liquid composition. In
some embodiments, the ophthalmic composition is a semi-solid composition. In some
embodiments, the ophthalmic composition is a topical composition. The topical
compositions include, but are not limited to liquid and semi-solid compositions. In
some embodiments, the ophthalmic composition is a topical composition. In some
embodiments, the topical composition comprises aqueous solution, an aqueous
suspension, an ointment or a gel. In some embodiments, the ophthalmic composition
is topically applied to the front of the eye, under the upper eyelid, on the lower eyelid
and in the cul-de-sac. In some embodiments, the ophthalmic composition is
sterilized. The sterilization can be accomplished by known techniques like sterilizing
filtration of the solution or by heating of the solution in the ampoule ready for use.
The ophthalmic compositions of the invention can further contain pharmaceutical
excipients suitable for the preparation of ophthalmic formulations. Examples of such
excipients are preserving agents, buffering agents, chelating agents, antioxidant agents
and salts for regulating the osmotic pressure.
As used herein, the term “ophthalmically acceptable carrier” refers to any
material that can contain and release the compound, or pharmaceutically acceptable
salt thereof, and that is compatible with the eye. In some embodiments, the
ophthalmically acceptable carrier is water or an aqueous solution or suspension, but
also includes oils such as those used to make ointments and polymer matrices such as
used in ocular inserts. In some embodiments, the composition may be an aqueous
suspension comprising the compound, or pharmaceutically acceptable salt thereof.
Liquid ophthalmic compositions, including both ointments and suspensions, may have
a viscosity that is suited for the selected route of administration. In some
embodiments, the ophthalmic composition has a viscosity in the range of from about
1,000 to about 30,000 centipoise.
In some embodiments, the ophthalmic compositions may further comprise one
or more of surfactants, adjuvants, buffers, antioxidants, tonicity adjusters,
preservatives (e.g., EDTA, BAK (benzalkonium chloride), sodium chlorite, sodium
perborate, polyquaterium-1), thickeners or viscosity modifiers (e.g., carboxymethyl
cellulose, hydroxymethyl cellulose, polyvinyl alcohol, polyethylene glycol, glycol
400, propylene glycol hydroxymethyl cellulose, hydroxpropyl-guar, hyaluronic acid,
and hydroxypropyl cellulose) and the like. Additives in the formulation may include,
but are not limited to, sodium chloride, sodium bicarbonate, sorbic acid, methyl
paraben, propyl paraben, chlorhexidine, castor oil, and sodium perborate.
Aqueous ophthalmic compositions (solutions or suspensions) generally do not
contain physiologically or ophthalmically harmful constituents. In some
embodiments, purified or deionized water is used in the composition. The pH may be
adjusted by adding any physiologically and ophthalmically acceptable pH adjusting
acids, bases or buffers to within the range of about 5.0 to 8.5. Ophthalmically
acceptable examples of acids include acetic, boric, citric, lactic, phosphoric,
hydrochloric, and the like, and examples of bases include sodium hydroxide, sodium
phosphate, sodium borate, sodium citrate, sodium acetate, sodium lactate,
tromethamine, trishydroxymethylamino-methane, and the like. Salts and buffers
include citrate/dextrose, sodium bicarbonate, ammonium chloride and mixtures of the
aforementioned acids and bases.
In some embodiments, the methods involve forming or supplying a depot of
the therapeutic agent in contact with the external surface of the eye. A depot refers to
a source of therapeutic agent that is not rapidly removed by tears or other eye
clearance mechanisms. This allows for continued, sustained high concentrations of
therapeutic agent to be present in the fluid on the external surface of the eye by a
single application. Without wishing to be bound by any theory, it is believed that
absorption and penetration may be dependent on both the dissolved drug
concentration and the contact duration of the external tissue with the drug containing
fluid. As the drug is removed by clearance of the ocular fluid and/or absorption into
the eye tissue, more drug is provided, e.g. dissolved, into the replenished ocular fluid
from the depot. Accordingly, the use of a depot may more easily facilitate loading of
the ocular tissue for more insoluble therapeutic agents. In some embodiments, the
depot can remain for up to eight hours or more. In some embodiments, the
ophthalmic depot forms includes, but is not limited to, aqueous polymeric
suspensions, ointments, and solid inserts.
In some embodiments, the ophthalmic composition is an ointment or gel. In
some embodiment, the ophthalmic composition is an oil-based delivery vehicle. In
some embodiments, the composition comprises a petroleum or lanolin base to which
is added the active ingredient, usually as 0.1 to 2%, and excipients. Common bases
may include, but are not limited to, mineral oil, petrolatum and combinations thereof.
In some embodiments, the ointment is applied as a ribbon onto the lower eyelid.
In some embodiment, the ophthalmic composition is an ophthalmic insert. In
some embodiments, the ophthalmic insert is biologically inert, soft, bio-erodible,
viscoelastic, stable to sterilization after exposure to therapeutic agents, resistant to
infections from air borne bacteria, bio- erodible, biocompatible, and/or viscoelastic.
In some embodiments, the insert comprises an ophthalmically acceptable matrix, e.g.,
a polymer matrix. The matrix is typically a polymer and the therapeutic agent is
generally dispersed therein or bonded to the polymer matrix. In some embodiments,
the therapeutic agent may be slowly released from the matrix through dissolution or
hydrolysis of the covalent bond. In some embodiments, the polymer is bioerodible
(soluble) and the dissolution rate thereof can control the release rate of the therapeutic
agent dispersed therein. In another form, the polymer matrix is a biodegradable
polymer that breaks down such as by hydrolysis to thereby release the therapeutic
agent bonded thereto or dispersed therein. In further embodiments, the matrix and
therapeutic agent can be surrounded with an additional polymeric coating to further
control release. In some embodiments, the insert comprises a biodegradable polymer
such as polycaprolactone (PCL), an ethylene/vinyl acetate copolymer (EVA),
polyalkyl cyanoacrylate, polyurethane, a nylon, or poly (dl-lactide-co-glycolide)
(PLGA), or a copolymer of any of these. In some embodiments, the therapeutic agent
is dispersed into the matrix material or dispersed amongst the monomer composition
used to make the matrix material prior to polymerization. In some embodiments, the
amount of therapeutic agent is from about 0.1 to about 50%, or from about 2 to about
20%. In further embodiments, the biodegradable or bioerodible polymer matrix is
used so that the spent insert does not have to be removed. As the biodegradable or
bioerodible polymer is degraded or dissolved, the therapeutic agent is released.
In further embodiments, the ophthalmic insert comprises a polymer, including,
but are not limited to, those described in Wagh, et al., “Polymers used in ocular
dosage form and drug delivery systems”, Asian J. Pharm., pages 12-17 (Jan. 2008),
which is incorporated herein by reference in its entirety. In some embodiments, the
insert comprises a polymer selected from polyvinylpyrrolidone (PVP), an acrylate or
methacrylate polymer or copolymer (e.g., Eudragit® family of polymers from Rohm
or Degussa), hydroxymethyl cellulose, polyacrylic acid, poly(amidoamine)
dendrimers, poly(dimethyl siloxane), polyethylene oxide, poly(lactide-co-glycolide),
poly(2-hydroxyethylmethacrylate), poly(vinyl alcohol), or poly(propylene fumarate).
In some embodiments, the insert comprises Gelfoam® R. In some embodiments, the
insert is a polyacrylic acid of 450 kDa-cysteine conjugate.
In some embodiments, the ophthalmic composition is a ophthalmic film.
Polymers suitable for such films include, but are not limited to, those described in
Wagh, et al. (ibid), In some embodiments, the film is a soft-contact lens, such as ones
made from copolymers of N,N-diethylacrylamide and methacrylic acid crosslinked
with ethyleneglycol dimethacrylate.
In some embodiments, the ophthalmic compositon comprises microspheres or
nanoparticles. In some embodiment, the microspheres comprise gelatin. In some
embodiments, the microspheres are injected to the posterior segment of the eye, in the
chroroidal space, in the sclera, intravitreally or sub-retinally. In some embodiments,
the microspheres or nanoparticles comprises a polymer including, but not limited to,
those described in Wagh, et al. (ibid), which is incorporated herein by reference in its
entirety. In some embodiments, the polymer is chitosan, a polycarboxylic acid such
as polyacrylic acid, albumin particles, hyaluronic acid esters, polyitaconic acid,
poly(butyl)cyanoacrylate, polycaprolactone, poly(isobutyl)caprolactone, poly(lactic
acid-co-glycolic acid), or poly(lactic acid). In some embodiments, the microspheres
or nanoparticles comprise solid lipid particles.
In some embodiments, the ophthalmic composition comprises an ion-
exchange resin. In some embodiments, the ion-exchange resin is an inorganic zeolite
or synthetic organic resin. In some embodiments, the ion-exchange resin includes,
but is not limited to, those described in Wagh, et al. (ibid), which is incorporated
herein by reference in its entirety. In some embodiments, the ion-exhange resin is a
partially neutralized polyacrylic acid.
In some embodiments, the ophthalmic composition is an aqueous polymeric
suspension. In some embodiments, the therapeutic agent or a polymeric suspending
agent is suspended in an aqueous medium. In some embodiments, the aqueous
polymeric suspensions may be formulated so that they retain the same or substantially
the same viscosity in the eye that they had prior to administration to the eye. In some
embodiments, they may be formulated so that there is increased gelation upon contact
with tear fluid.
Labeled Compounds and Assay Methods
Another aspect of the present invention relates to labeled compounds of the
invention (radio-labeled, fluorescent-labeled, etc.) that would be useful not only in
imaging techniques but also in assays, both in vitro and in vivo, for localizing and
quantitating JAK in tissue samples, including human, and for identifying JAK ligands
by inhibition binding of a labeled compound. Accordingly, the present invention
includes JAK assays that contain such labeled compounds.
The present invention further includes isotopically-labeled compounds of the
invention. An “isotopically” or “radio-labeled” compound is a compound of the
invention where one or more atoms are replaced or substituted by an atom having an
atomic mass or mass number different from the atomic mass or mass number typically
found in nature (i.e., naturally occurring). Suitable radionuclides that may be
incorporated in compounds of the present invention include but are not limited to H
11 13 14 13 15 15 17 18 18 35 36 82
(also written as T for tritium), C, C, C, N, N, O, O, O, F, S, Cl, Br,
75 76 77 123 124 125 131
Br, Br, Br, I, I, I and I. The radionuclide that is incorporated in the
instant radio-labeled compounds will depend on the specific application of that radio-
labeled compound. For example, for in vitro JAK labeling and competition assays,
3 14 82 125 131 35
compounds that incorporate H, C, Br, I , I, S or will generally be most
11 18 125 123 124 131 75 76 77
useful. For radio-imaging applications C, F, I, I, I, I, Br, Br or Br
will generally be most useful.
It is to be understood that a “radio-labeled ” or “labeled compound” is a
compound that has incorporated at least one radionuclide. In some embodiments the
3 14 125 35 82
radionuclide is selected from the group consisting of H, C, I , S and Br. In
some embodiments, the compound incorporates 1, 2, or 3 deuterium atoms.
The present invention can further include synthetic methods for incorporating
radio-isotopes into compounds of the invention. Synthetic methods for incorporating
radio-isotopes into organic compounds are well known in the art, and an ordinary skill
in the art will readily recognize the methods applicable for the compounds of
invention.
A labeled compound of the invention can be used in a screening assay to
identify/evaluate compounds. For example, a newly synthesized or identified
compound (i.e., test compound) which is labeled can be evaluated for its ability to
bind a JAK by monitoring its concentration variation when contacting with the JAK,
through tracking of the labeling. For example, a test compound (labeled) can be
evaluated for its ability to reduce binding of another compound which is known to
bind to a JAK (i.e., standard compound). Accordingly, the ability of a test compound
to compete with the standard compound for binding to the JAK directly correlates to
its binding affinity. Conversely, in some other screening assays, the standard
compound is labeled and test compounds are unlabeled. Accordingly, the
concentration of the labeled standard compound is monitored in order to evaluate the
competition between the standard compound and the test compound, and the relative
binding affinity of the test compound is thus ascertained.
Kits
The present invention also includes pharmaceutical kits useful, for example, in
the treatment or prevention of JAK-associated diseases or disorders, such as cancer,
which include one or more containers containing a pharmaceutical composition
comprising a therapeutically effective amount of a compound of the invention. Such
kits can further include, if desired, one or more of various conventional
pharmaceutical kit components, such as, for example, containers with one or more
pharmaceutically acceptable carriers, additional containers, etc., as will be readily
apparent to those skilled in the art. Instructions, either as inserts or as labels,
indicating quantities of the components to be administered, guidelines for
administration, and/or guidelines for mixing the components, can also be included in
the kit.
The invention will be described in greater detail by way of specific examples.
The following examples are offered for illustrative purposes, and are not intended to
limit the invention in any manner. Those of skill in the art will readily recognize a
variety of non-critical parameters which can be changed or modified to yield
essentially the same results. The compounds of the Examples have been found to be
JAK inhibitors according to at least one assay described herein.
EXAMPLES
Experimental procedures for compounds of the invention are provided below.
Open access prep. LC-MS purification of some of the compounds prepared was
performed on Waters mass directed fractionation systems. The basic equipment
setup, protocols, and control software for the operation of these systems have been
described in detail in literature. See e.g. “Two-Pump At Column Dilution
Configuration for Preparative LC-MS”, K. Blom, J. Combi. Chem., 4, 295 (2002);
“Optimizing Preparative LC-MS Configurations and Methods for Parallel Synthesis
Purification”, K. Blom, R. Sparks, J. Doughty, G. Everlof, T. Haque, A. Combs, J.
Combi. Chem., 5, 670 (2003); and "Preparative LC-MS Purification: Improved
Compound Specific Method Optimization", K. Blom, B. Glass, R. Sparks, A. Combs,
J. Combi. Chem., 6, 874-883 (2004). The compounds separated were typically
subjected to analytical liquid chromatography mass spectrometry (LCMS) for purity
under the following conditions: Instrument; Agilent 1100 series, LC/MSD, Column:
Waters Sunfire C 5 Τm, 2.1 x 5.0 mm, Buffers: mobile phase A: 0.025% TFA in
water and mobile phase B: 0.025% TFA in acetonitrile; gradient 2% to 80% of B in 3
minutes with flow rate 1.5 mL/minute.
Some of the compounds prepared were also separated on a preparative scale
by reverse-phase high performance liquid chromatography (RP-HPLC) with MS
detector or flash chromatography (silica gel) as indicated in the examples. Typical
preparative reverse-phase high performance liquid chromatography (RP-HPLC)
column conditions are as follows:
pH = 2 purifications: Waters Sunfire C 5 um, 19 x 100 mm column,
eluting with mobile phase A: 0.1% TFA (trifluoroacetic acid) in water and mobile
phase B: acetonitrile; the flow rate was 30 mL/minute, the separating gradient was
optimized for each compound using the Compound Specific Method Optimization
protocol as described in the literature [See "Preparative LCMS Purification: Improved
Compound Specific Method Optimization", K. Blom, B. Glass, R. Sparks, A. Combs,
J. Comb. Chem., 6, 874-883 (2004)]. Typically, the flow rate used with 30 x 100 mm
column was 60 mL/minute.
pH = 10 purifications: Waters XBridge C 5 um, 19 x 100 mm column,
eluting with mobile phase A: 0.15% NH OH in water and mobile phase B:
acetonitrile; the flow rate was 30 mL/minute, the separating gradient was optimized
for each compound using the Compound Specific Method Optimization protocol as
described in the literature [See "Preparative LCMS Purification: Improved Compound
Specific Method Optimization", K. Blom, B. Glass, R. Sparks, A. Combs, J. Comb.
Chem., 6, 874-883 (2004)]. Typically, the flow rate used with 30 x 100 mm column
was 60 mL/minute.
Some of the compounds prepared were also analyzed via Differential
Scanning Calorimetry (DSC). Typical DSC instrument conditions are as follows:
TA Instruments Differential Scanning Calorimetry, Model Q200 with
autosampler. General conditions: 30 - 350 °C at 10 °C/min; Tzero aluminum sample
pan and lid; nitrogen gas flow at 50 mL/min.
Some of the compounds prepared were also analyzed via Thermogravimetric
Analysis (TGA). Typical TGA instrument conditions are as follows:
TA Instrument Thermogravimetric Analyzer, Model Q500. General method
conditions: ramp from 20°C to 600 °C at 20 °C/min; nitrogen purge, gas flow at 40
mL/min followed by balance of the purge flow; sample purge flow at 60 mL/min;
platinum sample pan.
Some of the compounds prepared were also analyzed via X-Ray Power
Diffraction (XRPD). Typical XRPD instrument conditions are as follows:
Rigaku MiniFlex X-ray Powder Diffractometer (XRPD). General
experimental procedures: X-ray radiation from Copper at 1.054056Å with Kβ filter;
X-ray power is 30 KV, 15 mA; sample powder is dispersed on a zero-background
sample holder. General measurement conditions: Start Angle – 3 degrees; Stop Angle
– 45 degrees; Sampling – 0.02 degrees; Scan speed – 2 degree/min.
Example 1. 5-[3-(Cyanomethyl)(3'-methyl-1H,1'H-4,4'-bipyrazol
yl)azetidinyl]-N-[(1S)-2,2,2-trifluoromethylethyl]pyrazinecarboxamide
trifluoroacetate
HN N
Step 1: tert-Butyl 3-(cyanomethylene)azetidinecarboxylate
To a solution of 1.0 M potassium tert-butoxide in tetrahydrofuran (30.7 mL,
.7 mmol) at 0 °C was added dropwise a solution of diethyl
cyanomethylphosphonate (5.20 mL, 32.2 mmol) in tetrahydrofuran (39 mL). The
reaction was warmed to room temperature and then cooled at 0 °C again. To the
reaction mixture was added a solution of tert-butyl 3-oxoazetidinecarboxylate (5.0
g, 0.029 mol, from Aldrich) in tetrahydrofuran (8 mL). The reaction was allowed to
warm to room temperature and stirred overnight. After quenched with water, the
mixture was extracted with ethyl acetate (EtOAc). The combined organic layers were
washed with brine, dried over MgSO , and evaporated under reduced pressure. The
crude mixture was purified by flash chromatography on a silica gel column eluting
with ethyl acetate in hexanes (0 - 70%) to give the desired product (5.40 g, 95%).
LCMS cacld. for C H N O Na (M+Na) : m/z = 217.1; Found: 217.1
14 2 2
Step 2: tert-Butyl 3-(cyanomethyl)[4-(4,4,5,5-tetramethyl-1,3,2-dioxaborolan
yl)-1H-pyrazolyl]azetidinecarboxylate
A mixture of 4-(4,4,5,5-tetramethyl-1,3,2-dioxaborolanyl)-1H-pyrazole
(0.990 g, 5.10 mmol), tert-butyl 3-(cyanomethylene)azetidinecarboxylate (1.00 g,
5.15 mmol) and 1,8-diazabicyclo[5.4.0]undecene (0.38 mL, 2.6 mmol) in
acetonitrile (20 mL) was heated at 60 °C for 2 h. After cooling, the solvent was
removed under reduced pressure. The residue was purified by flash chromatography
on a silica gel column eluting with ethyl acetate in hexanes (0-60%) to afford the
desired product (1.68 g, 84.8%). LCMS cacld. for C H BN O (M-55) : m/z =
22 4 4
333.2; Found: 333.1.
Step 3: {3-[4-(4,4,5,5-Tetramethyl-1,3,2-dioxaborolanyl)-1H-pyrazol
yl]azetidinyl}acetonitrile hydrochloride
4.0 N HCl in 1,4-dioxane (2.0 mL) was added to solution of tert-butyl 3-
(cyanomethyl)[4-(4,4,5,5-tetramethyl-1,3,2-dioxaborolanyl)-1H-pyrazol
yl]azetidinecarboxylate (1.68 g, 4.33 mmol) in methylene chloride (10 mL). The
reaction mixture was stirred at room temperature overnight, and then concentrated
under reduced pressure to afford the desired product as HCl salt which was directly
used in the next step reaction without further purification. LCMS cacld. for
C H BN O (M+1) : m/z = 289.2; Found: 289.1.
14 22 4 2
Step 4: 5-Chloro-N-[(1S)-2,2,2-trifluoromethylethyl]pyrazinecarboxamide
N HN F
N,N-Diisopropylethylamine (1.3 mL, 7.5 mmol) was added to a mixture of 5-
chloropyrazinecarboxylic acid (0.40 g, 2.5 mmol), N,N,N',N'-tetramethyl-O-(7-
azabenzotriazolyl)uronium hexafluorophosphate (1.0 g, 2.8 mmol) and (2S)-1,1,1-
trifluoropropanamine (0.28 g, 2.5 mmol) in methylene chloride (10 mL). The
reaction mixture was stirred at room temperature overnight. The reaction mixture was
worked up with sat. aqueous NaHCO , and extracted with ethyl acetate. The
combined organic layers were washed with brine, dried over MgSO , filtered and
concentrated under reduced pressure. The residue was purified by flash
chromatography on a silica gel column with ethyl acetate in hexanes (0-15%) to
afford the desired product (0.47 g, 73%). . LCMS cacld. for C H ClF N O (M+1) :
8 8 3 3
m/z = 254.0; Found: 253.9.
Step 5: 5-{3-(Cyanomethyl)[4-(4,4,5,5-tetramethyl-1,3,2-dioxaborolanyl)-1H-
pyrazolyl]azetidinyl}-N-[(1S)-2,2,2-trifluoromethylethyl]pyrazine
carboxamide
A mixture of 5-chloro-N-[(1S)-2,2,2-trifluoromethylethyl]pyrazine
carboxamide (254 mg, 1.00 mmol), {3-[4-(4,4,5,5-tetramethyl-1,3,2-dioxaborolan
yl)-1H-pyrazolyl]azetidinyl}acetonitrile HCl salt (325 mg, 1.00 mmol) and N,N-
diisopropylethylamine (401 μL, 2.30 mmol) in 1,4-dioxane (5.0 mL) was heated at
100 °C for 2 h. After cooling, the mixture was concentrated under reduced pressure.
The residue was purified by flash chromatography on a silica gel column eluting with
ethyl acetate in hexane (gradient: 20-80%) to afford the desired product (0.49 g,
97%). LCMS cacld. for C H BF N O (M+1) : m/z = 506.2; Found: 506.1.
22 28 3 7 3
Step 6: tert-Butyl 4-bromomethyl-1H-pyrazolecarboxylate
A mixture of 4-bromomethyl-1H-pyrazole (0.2 g, 1 mmol), di-tert-
butyldicarbonate (0.30 g, 1.4 mmol), 4-dimethylaminopyridine (0.02 g, 0.1
mmol) and triethylamine (0.26 mL, 1.9 mmol) in acetonitrile (2 mL) was stirred at rt
overnight. The reaction mixture was concentrated, and purified by flash
chromatography on a silica gel column eluting with ethyl acetate in hexanes (0-15%)
to afford the desired product (0.32 g). LCMS cacld. for C H BrN O (M-55) : m/z =
6 2 2
205.0; Found: 204.9.
Step 7: 5-[3-(Cyanomethyl)(3'-methyl-1H,1'H-4,4'-bipyrazolyl)azetidinyl]-N-
[(1S)-2,2,2-trifluoromethylethyl]pyrazinecarboxamide trifluoroacetate
A mixture of 5-{3-(cyanomethyl)[4-(4,4,5,5-tetramethyl-1,3,2-
dioxaborolanyl)-1H-pyrazolyl]azetidinyl}-N-[(1S)-2,2,2-trifluoro
methylethyl]pyrazinecarboxamide (27.0 mg, 0.0533 mmol), tert-butyl 4-bromo
methyl-1H-pyrazolecarboxylate (15 mg, 0.059
mmol), tetrakis(triphenylphosphine)palladium(0) (3.1 mg, 0.0027 mmol) and sodium
carbonate (17.0 mg, 0.160 mmol) in 1,4-dioxane (1.6 mL) and water (0.8 mL) under
nitrogen was stirred at 100 °C overnight. The reaction mixture was filtered,
and purified by RP-HPLC (pH = 2 conditions) to afford the desired product as TFA
salt. H NMR (300 MHz, CD OD) δ 8.73 (d, J = 1.4 Hz, 1H), 8.18 (d, J = 0.6 Hz,
1H), 7.98 (d, J = 1.4 Hz, 1H), 7.91 – 7.79 (m, 2H), 4.84 (m, 1H), 4.81 (d, J = 10.2 Hz,
2H), 4.60 (d, J = 10.2 Hz, 2H), 3.59 (s, 2H), 2.44 (s, 3H), 1.43 (d, J = 7.1 Hz, 3H)
ppm. LCMS cacld. for C H F N O (M+1) : m/z = 460.2; Found: 460.0.
21 3 9
Example 2. 5-[3-(Cyanomethyl)(3'-methyl-1H,1'H-4,4'-bipyrazol
yl)azetidinyl]-N-isopropylpyrazinecarboxamide trifluoroacetate
HN N
Step 1: 5-Chloro-N-isopropylpyrazinecarboxamide
N,N-Diisopropylethylamine (2.6 mL, 15 mmol) was added to a mixture of 5-
chloropyrazinecarboxylic acid (0.80 g, 5.0 mmol), benzotriazol
yloxytris(dimethylamino)phosphonium hexafluorophosphate (2.46 g, 5.56
mmol) and 2-propanamine (0.47 mL, 5.6 mmol) in methylene chloride (20 mL). The
reaction mixture was stirred at room temperature overnight. The reaction mixture was
worked up with sat. aqueous NaHCO , and extracted with ethyl acetate. The
combined organic layers were washed with brine, dried over MgSO4, filtered and
concentrated under reduced pressure. The residue was purified by flash
chromatography on a silica gel column eluting with ethyl acetate in hexanes (0-15%)
to afford the desired product. LCMS cacld. for C H ClN O (M+1) : m/z = 200.1;
8 11 3
Found: 200.1.
Step 2: 5-{3-(Cyanomethyl)[4-(4,4,5,5-tetramethyl-1,3,2-dioxaborolanyl)-1H-
pyrazolyl]azetidinyl}-N-isopropylpyrazinecarboxamide
A mixture of 5-chloro-N-isopropylpyrazinecarboxamide (200 mg, 1.00
mmol), {3-[4-(4,4,5,5-tetramethyl-1,3,2-dioxaborolanyl)-1H-pyrazolyl]azetidin-
3-yl}acetonitrile HCl salt (325 mg, 1.00 mmol, from Example 1, step 3) and N,N-
diisopropylethylamine (401 μL, 2.30 mmol) in 1,4-dioxane (5.0 mL) was heated at
100 °C for 2 h. After cooling, the mixture was concentrated under reduced pressure.
The residue was purified by flash chromatography on a silica gel column eluting with
ethyl acetate in hexane (gradient: 20-80%) to afford the desired product (0.26 g,
58%). LCMS cacld. for C H BN O (M+1) : m/z = 452.3; Found: 452.2.
22 31 7 3
Step 3: 5-[3-(Cyanomethyl)(3'-methyl-1H,1'H-4,4'-bipyrazolyl)azetidinyl]-N-
isopropylpyrazinecarboxamide trifluoroacetate
A mixture of tert-butyl 4-bromomethyl-1H-pyrazolecarboxylate (15.7
mg, 0.0600 mmol), 5-{3-(cyanomethyl)[4-(4,4,5,5-tetramethyl-1,3,2-dioxaborolan-
2-yl)-1H-pyrazolyl]azetidinyl}-N-isopropylpyrazinecarboxamide (25.8 mg,
0.0571 mmol), [1,1'-bis(diphenylphosphino)ferrocene]dichloropalladium(II) complex
with dichloromethane (1:1) (2.3 mg, 0.0028 mmol) and potassium phosphate (0.036 g,
0.17 mmol) in dioxane (0.5 mL) and water (0.2 mL) in a reaction vial was degassed
and sealed. The mixture was heated at 110 °C for 3 h. After cooling, the mixture was
diluted with methanol, filtered and purified by RP-HPLC (pH = 2 conditions) to
afford the desired product as TFA salt. LCMS cacld. for C H N O (M+1) : m/z =
24 9
406.2; Found: 406.1.
Example 3. 4-[3-(Cyanomethyl)(3'-methyl-1H,1'H-4,4'-bipyrazol
yl)azetidinyl]-N-isopropylbenzamide trifluoroacetate
Step 1: Ethyl 4-(3-hydroxyazetidinyl)benzoate
A mixture of ethyl 4-fluorobenzoate (0.841 g, 5.00 mmol, from Aldrich),
azetidinol hydrochloride (0.438 g, 4.00 mmol, from Aldrich) and potassium
carbonate (1.38 g, 9.98 mmol) in dimethyl sulfoxide (4 mL) was heated at 180 °C for
2 h. After cooling, the mixture was diluted with ethyl acetate (50 mL), and washed
with water and brine. The organic layer was dried over MgSO , filtered, and
concentrated under reduced pressure. The residue was purified by flash
chromatography on a silica gel column with ethyl acetate in hexane (0-50%) to afford
the desired product (0.643, 72.6%). LCMS cacld. for C H NO (M+1) : m/z =
12 16 3
222.1; Found: 222.1.
Step 2: 4-(3-Hydroxyazetidinyl)benzoic acid
A mixture of 1-[4-(3-hydroxyazetidinyl)phenyl]methoxyethanone (1.33
g, 6.00 mmol) and lithium hydroxide monohydrate (504 mg, 12.0 mmol) in water (4
mL), methanol (3 mL) and THF (6 mL) was stirred at 40 °C overnight. The mixture
was neutralized with 3 N HCl aqueous solution (~4 mL) to pH about 7, extracted with
ethyl acetate. The combined organic layers were dried over Na SO , filtered and
concentrated under reduced pressure to afford the crude product (1.10 g, 94.9%)
which was directly used in the next step without further purification. LCMS cacld. for
C H NO (M+1) : m/z = 194.1; Found: 194.1.
12 3
Step 3: 4-(3-Hydroxyazetidinyl)-N-isopropylbenzamide
Benzotriazolyloxytris(dimethylamino)phosphonium hexafluorophosphate
(4.64 g, 10.5 mmol, from Aldrich) was added to a mixture of 4-(3-hydroxyazetidin
yl)benzoic acid (1.93 g, 10.0 mmol), 2-propanamine (4.26 mL, 50.0 mmol) and N,N-
diisopropylethylamine (3.88 g, 30.0 mmol) in dichloromethylene (10 mL). The
mixture was stirred at room temperature for 2 h, and diluted with dichloromethane.
The mixture was washed with aqueous NaHCO3 and brine, dried over Na2SO4,
filtered and concentrated under reduced pressure. The residue was purified by flash
chromatography on a silica gel column eluting with ethyl acetate in hexane (gradient:
0-50%) to afford the desired product (2.21 g, 94.3%). LCMS cacld. for C H N O
13 19 2 2
(M+1) : m/z = 235.1; Found: 235.1.
Step 4: N-Isopropyl(3-oxoazetidinyl)benzamide
To a cooled (-78°C) solution of oxalyl chloride (1.05 mL, 12.4 mmol) in
dichloromethylene (20 mL) was added dropwise dimethyl sulfoxide (1.71 mL, 24.1
mmol). The mixture was stirred at -78°C for 10 min. Then a suspension of 4-(3-
hydroxyazetidinyl)-N-isopropylbenzamide (1.72 g, 7.34 mmol) in
dichloromethylene (20 mL) was added. The mixture was stirred at -78°C for 1 h, and
then triethylamine (7.04 mL, 50.5 mmol) was added. The mixture was stirred at -
78°C for an additional 1.5 h. The mixture was washed with aq. NaHCO and brine,
dried over Na SO , filtered and concentrated under reduced pressure. The precipitates
were washed with ether and collected by filtration to afford the desired product (1.32
g, 77%) which was directly used in the next step without further purification. LCMS
cacld. for C H N O (M+1) : m/z = 233.1; Found: 233.1.
13 17 2 2
Step 5: 4-[3-(Cyanomethylene)azetidinyl]-N-isopropylbenzamide
To a cooled (at -6 - 0 °C) solution of 1.0 M potassium tert-butoxide in
tetrahydrofuran (7.10 mL, 7.10 mmol) was added dropwise a solution of diethyl
cyanomethylphosphonate (1.20 mL, 7.43 mmol, from Aldrich) in tetrahydrofuran (10
mL) over a period of 10 min and at -6 to 0 °C. The reaction was warmed and stirred at
room temperature for 1 h. The reaction mixture was cooled at -6 °C again. To the
reaction mixture was then added a solution of N-isopropyl(3-oxoazetidin
yl)benzamide (1.30 g, 5.60 mmol) in tetrahydrofuran (10 mL) over a period of 10
min. During this time the temperature of the reaction mixture was between -5 to 0 °C.
The reaction was allowed to warm to room temperature and was stirred for 3 h. The
reaction mixture was filtered through a pad of silica gel and washed with ethyl
acetate. The filtrate was concentrated, and the residue was treated with ether. The
precipitates formed were collected by filtration to give 0.60 g the desired product. The
mother liquid was concentrated under reduced pressure. The residue was purified by
flash chromatography on a silica gel column eluting with ethyl acetate in hexane
(gradient: 30-80%) to afford the desired product (0.21 g). The total product is 0.81 g
(57%). H NMR (400 MHz, DMSO-d ) δ 7.91 (d, J = 7.8 Hz, 1H), 7.74 (d, J = 8.7
Hz, 2H), 6.53 (d, J = 8.7 Hz, 2H), 5.88 (p, J = 2.3 Hz, 1H), 4.77 – 4.67 (m, 2H), 4.62
(dt, J = 5.1, 2.6 Hz, 2H), 4.06 (m, 1H), 1.12 (d, J = 6.6 Hz, 6H) ppm. LCMS cacld.
for C H N O (M+1) : m/z = 256.1; Found: 256.1.
18 3
Step 6: 4-{3-(Cyanomethyl)[4-(4,4,5,5-tetramethyl-1,3,2-dioxaborolanyl)-1H-
pyrazolyl]azetidinyl}-N-isopropylbenzamide
A mixture of 4-(4,4,5,5-tetramethyl-1,3,2-dioxaborolanyl)-1H-pyrazole
(2.98 g, 15.3 mmol), 4-[3-(cyanomethylene)azetidinyl]-N-isopropylbenzamide
(4.00 g, 15.7 mmol) and 1,8-diazabicyclo[5.4.0]undecene (1.17 g, 7.68 mmol) in
isopropyl alcohol (10 mL) was heated at 70 °C for 1 h. The mixture was cooled
down to 35 °C. To the suspension was added 30 ml of methyl tert-butyl ether
(MTBE), and stirred at room temperature for 1 h. The precipitates formed was
collected by filtration, washed with MTBE, and dried under reduced pressure to
afford the desired product (6.2 g 89.8%). H NMR (400 MHz, DMSO-d ) δ 8.35 (s,
1H), 7.90 (d, J = 7.8 Hz, 1H), 7.75 (s, 1H), 7.73 (d, J = 8.7 Hz, 2H), 6.52 (d, J = 8.7
Hz, 2H), 4.40 (d, J = 8.6 Hz, 2H), 4.20 (d, J = 8.6 Hz, 2H), 4.05 (m, 1H), 3.65 (s, 2H),
1.24 (s, 12H), 1.12 (d, J = 6.6 Hz, 6H) ppm. LCMS cacld. for C H BN O (M+1) :
24 33 5 3
m/z = 450.3; Found: 450.3.
Step 7: 4-[3-(Cyanomethyl)(3'-methyl-1H,1'H-4,4'-bipyrazolyl)azetidinyl]-N-
isopropylbenzamide trifluoroacetate
A mixture of tert-butyl 4-bromomethyl-1H-pyrazolecarboxylate (15.7
mg, 0.0600 mmol), 4-{3-(cyanomethyl)[4-(4,4,5,5-tetramethyl-1,3,2-dioxaborolan-
2-yl)-1H-pyrazolyl]azetidinyl}-N-isopropylbenzamide (25.7 mg, 0.0571
mmol), potassium phosphate (36.4 mg, 0.171 mmol) and [1,1'-
bis(diphenylphosphino)ferrocene]dichloropalladium(II) complex with
dichloromethane (1:1) (2.33 mg, 0.00286 mmol) in dioxane (0.5 mL) and water (0.2
mL) in a reaction vial was degassed and sealed. The mixture was heated at 110 °C for
3 h. After cooling, the mixture was diluted with methanol, filtered and purified by RP-
HPLC (pH = 2 conditions) to afford the desired product as TFA salt. LCMS cacld. for
C22H26N7O (M+1) : m/z = 404.2; Found: 404.1.
Example 4. 4-[3-(Cyanomethyl)(3'-methyl-1H,1'H-4,4'-bipyrazol
yl)azetidinyl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoromethylethyl]benzamide
trifluoroacetate
HN N
Step 1: 2,4,5-Trifluoro-N-[(1S)-2,2,2-trifluoromethylethyl]benzamide
To a solution of 2,4,5-trifluorobenzoic acid (5.00 g, 28.4 mmol) in acetonitrile
(50 mL) was added N,N-dimethylformamide (40 μL) followed by addition of oxalyl
chloride (3.60 mL, 42.6 mmol). After 90 min, the volatiles were removed under
reduced pressure. The residue was co-evaporated with acetonitrile (50 mL). The
residue was then dissolved in methylene chloride (50 mL). This solution was added
drop-wise into a cooled (ice bath) mixture of (2S)-1,1,1-trifluoropropanamine
hydrochloride (5.52 g, 36.9 mmol) (from Synquest, 98% ee) in toluene (100 mL) and
0.5 M sodium hydroxide aqueous solution (142 mL, 71.0 mmol). After addition, the
ice bath was removed, and the reaction was allowed to warm to rt. The reaction was
stirred overnight. The organic layer was separated. The aqueous layer was extracted
with methylene chloride (50 mL). The combined organic layers were washed with
% brine (75 mL) and water (2 x 75 mL), dried over MgSO , filtered and
concentrated under reduced pressure to afford the desired product (6.49 g, 84%)
which was directly used in the next step without further purification. H NMR (300
MHz, DMSO-d ) δ 9.01 (d, J = 7.6 Hz, 1H), 7.92 – 7.50 (m, 2H), 4.76 (m, 1H), 1.31
(d, J = 7.0 Hz, 3H) ppm. LCMS cacld. for C H F NO (M+1) : m/z = 272.0; Found:
8 6
272.0.
Step 2: 2,5-Difluoro(3-hydroxyazetidinyl)-N-[(1S)-2,2,2-trifluoro
methylethyl]benzamide
A mixture of 2,4,5-trifluoro-N-[(1S)-2,2,2-trifluoromethylethyl]benzamide
(6.39 g, 23.6 mmol), azetidinol hydrochloride (3.19 g, 28.3 mmol) and 1,8-
diazabicyclo[5.4.0]undecene (8.81 mL, 58.9 mmol) in acetonitrile (25 mL) was
stirred at 80 °C for 2 h. The reaction mixture was diluted with EtOAc (75 mL) and
washed with 1N HCl (50 mL), 1N NaHCO (60 mL), 20% brine (50 mL) and water
(75 mL). The aqueous layers were extracted with EtOAc (100 mL). The organic
layers were combined, dried over MgSO , filtered and concentrated under reduced
pressure to yield the desired product (7.59 g, 91.8%). H NMR (300 MHz, DMSO-d )
δ 8.38 (dd, J = 8.9, 1.9 Hz, 1H), 7.27 (dd, J = 12.8, 6.5 Hz, 1H), 6.38 (dd, J = 12.3,
7.5 Hz, 1H), 5.71 (d, J = 6.4 Hz, 1H), 4.74 (dp, J = 15.3, 7.6 Hz, 1H), 4.62 – 4.46 (m,
1H), 4.30 – 4.15 (m, 2H), 3.71 (m, 2H), 1.29 (d, J = 7.1 Hz, 3H) ppm. LCMS cacld.
for C H F N O (M+1) : m/z = 325.1; Found: 325.1.
13 14 5 2 2
Step 3: 2,5-Difluoro(3-oxoazetidinyl)-N-[(1S)-2,2,2-trifluoro
methylethyl]benzamide
To a solution of 2,5-difluoro(3-hydroxyazetidinyl)-N-[(1S)-2,2,2-
trifluoromethylethyl]benzamide (7.57 g, 23.3 mmol) in methylene chloride (93
mL) was added iodobenzene diacetate (9.40 g, 29.2 mmol) and 2,2,6,6-tetramethyl
piperidinyloxy free radical (1.82 g, 11.7 mmol) (TEMPO) at room temperature. The
reaction mixture was stirred at room temperature overnight. The mixture was diluted
with EtOAc (100 mL), washed with 0.5N NaHCO (2x80 mL), 20% brine (100 mL)
and water (100 mL). The aqueous layers were extracted with ethyl acetate (75 mL).
The organic extracts were combined, dried over MgSO , filtered and concentrated
under reduced pressure. The residue was purified by flash chromatography on a silica
gel column eluting with 0% to 5% ethyl acetate in methylene chloride to afford the
crude product which was recrystallized from MTBE (50 mL) and heptane (100 mL) to
give the desired product (5.44g, 72%) as colorless solid. H NMR (300 MHz, DMSO-
d ) δ 8.52 (d, J = 8.0 Hz, 1H), 7.36 (dd, J = 12.5, 6.5 Hz, 1H), 6.63 (dd, J = 12.1, 7.6
Hz, 1H), 4.90 (d, J = 2.1 Hz, 4H), 4.86 – 4.68 (m, 1H), 1.31 (d, J = 7.1 Hz, 3H) ppm.
LCMS cacld. for C H F N O (M+1) : m/z = 323.1; Found: 323.0.
13 12 5 2 2
Step 4: 4-[3-(Cyanomethylene)azetidinyl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoro
methylethyl]benzamide
Diethyl cyanomethylphosphonate (1.95 mL, 11.8 mmol) was added drop-wise
to a cooled (ice bath) solution of 1.0 M potassium tert-butoxide in THF (11.8 mL,
11.8 mmol) which was diluted with tetrahydrofuran (12 mL). The bath was removed
and the reaction was warmed to room temperature, and stirred for 90 min. The
reaction solution was cooled with an ice bath again. The above prepared solution was
then added over 12 min to a cooled (ice-bath) solution of 2,5-difluoro(3-
oxoazetidinyl)-N-[(1S)-2,2,2-trifluoromethylethyl]benzamide (4.00 g, 12.4
mmol) in tetrahydrofuran (50 mL). The reaction mixture was stirred for 30 min. The
ice bath was removed, and the reaction was stirred at room temperature overnight,
then quenched by the addition of 20% brine (75 mL) and ethyl acetate (75 mL). The
organic layer was separated. The aqueous layer was extracted with ethyl acetate (50
mL). The combined organic layers were dried over MgSO , filtered and concentrated
under reduced pressure. The residue was purified by flash chromatography on a silica
gel column with ethyl acetate in hexanes (0% to 30%) to yield the desired product
(2.6g). H NMR (400 MHz, DMSO-d ) δ 8.59 – 8.37 (m, 1H), 7.33 (dd, J = 12.5, 6.4
Hz, 1H), 6.59 (dd, J = 12.0, 7.4 Hz, 1H), 5.88 (m, 1H), 4.94 – 4.75 (m, 4H), 4.76 (m,
1H), 1.31 (d, J = 7.1 Hz, 3H) ppm. LCMS cacld. for C H F N O (M+1) : m/z =
13 5 3
346.1; Found: 346.1.
Step 5: 4-{3-(Cyanomethyl)[4-(4,4,5,5-tetramethyl-1,3,2-dioxaborolanyl)-1H-
pyrazolyl]azetidinyl}-2,5-difluoro-N-[(1S)-2,2,2-trifluoro
methylethyl]benzamide
A mixture of 4-(4,4,5,5-tetramethyl-1,3,2-dioxaborolanyl)-1H-pyrazole
(1.00 g, 5.15 mmol), 4-[3-(cyanomethylene)azetidinyl]-2,5-difluoro-N-[(1S)-2,2,2-
trifluoromethylethyl]benzamide (1.78 g, 5.15 mmol) and 1,8-
diazabicyclo[5.4.0]undecene (0.31 mL, 2.1 mmol) in acetonitrile (20.2 mL) was
heated at 50 °C overnight. After cooling, the solvent was removed under reduced
pressure. The residue was used in the next step without further purification. LCMS
cacld. for C H BF N O (M+1) : m/z = 540.2; Found: 540.1.
24 28 5 5 3
Step 6: 4-[3-(Cyanomethyl)(3'-methyl-1H,1'H-4,4'-bipyrazolyl)azetidinyl]-
2,5-difluoro-N-[(1S)-2,2,2-trifluoromethylethyl]benzamidetrifluoroacetate
A mixture of 4-{3-(cyanomethyl)[4-(4,4,5,5-tetramethyl-1,3,2-
dioxaborolanyl)-1H-pyrazolyl]azetidinyl}-2,5-difluoro-N-[(1S)-2,2,2-
trifluoromethylethyl]benzamide (28.8 mg, 0.0533 mmol), tert-butyl 4-bromo
methyl-1H-pyrazolecarboxxylate (15 mg, 0.059
mmol), tetrakis(triphenylphosphine)palladium(0) (3.1 mg, 0.0027 mmol) and sodium
carbonate (17.0 mg, 0.160 mmol) in 1,4-dioxane (1.6 mL) and water (0.8 mL) under
nitrogen was stirred at 100 °C overnight. The reaction mixture was extracted with
ethyl acetate. The combined organic layers were washed with brine, dried over
MgSO , filtered and concentrated under reduced pressure. The residue was purified
by RP-HPLC (pH = 2 conditions) to afford the desired product as TFA salt. LCMS
cacld. for C H F N O (M+1) : m/z = 494.2; Found: 494.0.
22 21 5 7
Example 5. 4-[3-(1H,1'H-4,4'-Bipyrazolyl)(cyanomethyl)azetidinyl]-2,5-
difluoro-N-[(1S)-2,2,2-trifluoromethylethyl]benzamide trifluoroacetate
This compound was prepared using procedures analogous to those described
for the synthesis of Example 4, Step 6 starting from 4-bromo-1H-pyrazole and 4-{3-
(cyanomethyl)[4-(4,4,5,5-tetramethyl-1,3,2-dioxaborolanyl)-1H-pyrazol
yl]azetidinyl}-2,5-difluoro-N-[(1S)-2,2,2-trifluoromethylethyl]benzamide.
LCMS cacld. for C H F N O (M+1) : m/z = 480.2; Found: 480.0.
21 19 5 7
Example 6. 5-[3-(Cyanomethyl)(3,3'-dimethyl-1H,1'H-4,4'-bipyrazol
yl)azetidinyl]-N-isopropylpyrazinecarboxamide trifluoroacetate
Step 1: tert-Butyl 3-(cyanomethyl)[3-methyl(4,4,5,5-tetramethyl-1,3,2-
dioxaborolanyl)-1H-pyrazolyl]azetidinecarboxylate
A mixture of 3-methyl(4,4,5,5-tetramethyl-1,3,2-dioxaborolanyl)-1H-
pyrazole (1.06 g, 5.10 mmol), tert-butyl 3-(cyanomethylene)azetidinecarboxylate
(1.00 g, 5.15 mmol) and 1,8-diazabicyclo[5.4.0]undecene (0.38 mL, 2.6 mmol) in
acetonitrile (20 mL) was heated at 60 °C for 2 h. After cooling, the solvent was
removed under reduced pressure. The residue was purified by flash chromatography
on a silica gel column eluting with ethyl acetate in hexanes (0-60%) to afford the
desired product. LCMS cacld. for C H BN O (M-55) : m/z = 347.2; Found:
16 24 4 4
347.1.
Step 2: {3-[3-Methyl(4,4,5,5-tetramethyl-1,3,2-dioxaborolanyl)-1H-pyrazol
yl]azetidinyl}acetonitrile hydrochloride
4.0 N HCl in dioxane (3 mL) was added to a solution of tert-butyl 3-
(cyanomethyl)[3-methyl(4,4,5,5-tetramethyl-1,3,2-dioxaborolanyl)-1H-
pyrazolyl]azetidinecarboxylate in methylene chloride (10 mL). The reaction
mixture was stirred at room temperature overnight. The mixture was concentrated
under reduced pressure to afford the crude product as HCl salt. LCMS cacld. for
C H BN O (M+1) : m/z = 303.2; Found: 303.1.
24 4 2
Step 3: 5-{3-(Cyanomethyl)[3-methyl(4,4,5,5-tetramethyl-1,3,2-dioxaborolan
yl)-1H-pyrazolyl]azetidinyl}-N-isopropylpyrazinecarboxamide
A mixture of {3-[3-methyl(4,4,5,5-tetramethyl-1,3,2-dioxaborolanyl)-
1H-pyrazolyl]azetidinyl}acetonitrile HCl salt (0.43 g, 1.3 mmol), 5-chloro-N-
isopropylpyrazinecarboxamide (0.24 g, 1.2 mmol) and N,N-diisopropylethylamine
(0.63 mL, 3.6 mmol) in tert-butyl alcohol (12 mL, 120 mmol) was heated at 100 °C
for 4 h. After cooling, the solvent was removed under reduced pressure. The residue
was purified by flash chromatography on a silica gel column eluting with ethyl acetate
in hexanes (0-60%) to afford the desired product. LCMS cacld. for C H BN O
23 33 7 3
(M+1) : m/z = 466.3; Found: 466.2.
Step 4: 5-[3-(Cyanomethyl)(3,3'-dimethyl-1H,1'H-4,4'-bipyrazolyl)azetidin
yl]-N-isopropylpyrazinecarboxamide trifluoroacetate
This compound was prepared using procedures analogous to those described
for the synthesis of Example 4, Step 6 starting from 4-bromomethyl-1H-pyrazole
and 5-{3-(cyanomethyl)[3-methyl(4,4,5,5-tetramethyl-1,3,2-dioxaborolanyl)-
1H-pyrazolyl]azetidinyl}-N-isopropylpyrazinecarboxamide. LCMS cacld. for
C H N O (M+1) : m/z = 420.2; Found: 420.1.
21 26 9
Example 7. 4-[3-(Cyanomethyl)(3',5'-dimethyl-1H,1'H-4,4'-bipyrazol
yl)azetidinyl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoromethylethyl]benzamide
HN N
A mixture of 4-{3-(cyanomethyl)[4-(4,4,5,5-tetramethyl-1,3,2-
dioxaborolanyl)-1H-pyrazolyl]azetidinyl}-2,5-difluoro-N-[(1S)-2,2,2-
trifluoromethylethyl]benzamide (329 mg, 0.610 mmol, from Example 4, step 5), 4-
bromo-3,5-dimethyl-1H-pyrazole (206 mg, 1.18 mmol),
tetrakis(triphenylphosphine)palladium(0) (110 mg, 0.098 mmol) and sodium
carbonate (320 mg, 3.0 mmol) in 1,4-dioxane (10 mL)/water (5 mL) was purged with
nitrogen and stirred at 110 °C for 1 h. The reaction mixture was diluted with EtOAc,
washed with water and brine, concentrated. The residue was purified first with silica
gel (eluting with 0-100% EtOAc/hexanes followed by 10%
methanol/dichloromethane), and then by prep-LCMS (XBridge C18 column, eluting
with a gradient of acetonitrile/water containing 0.1% ammonium hydroxide, at flow
rate of 60 mL/min) to give the desired product (30 mg, 9.7%). H NMR (500 MHz,
DMSO-d ) δ 12.17 (1H, s), 8.45 (1H, d, J = 8.0 Hz), 8.10 (1H, s), 7.70 (1H, s), 7.34
(1H, m), 6.61 (1H, s), 4.77 (1H, m), 4.62 (2H, d, J = 9.0 Hz), 4.39 (1H, d, J = 9.0 Hz),
3.64 (2H, s), 2.22 (6H, s), 1.31 (6H, d, J = 7.0 Hz) ppm. LCMS calculated for
C H F N O (M+H) : m/z = 508.2; Found: 508.0.
23 23 5 7
Example 8. 5-[3-(Cyanomethyl)(3',5'-dimethyl-1H,1'H-4,4'-bipyrazol
yl)azetidinyl]-N-isopropylpyrazinecarboxamide
HN N
A mixture of 5-{3-(cyanomethyl)[4-(4,4,5,5-tetramethyl-1,3,2-
dioxaborolanyl)-1H-pyrazolyl]azetidinyl}-N-isopropylpyrazine
carboxamide (256 mg, 0.567 mmol, from Example 2, step 2), 4-bromo-3,5-dimethyl-
1H-pyrazole (119 mg, 0.681 mmol), dicyclohexyl(2',4',6'-triisopropylbiphenyl
yl)phosphine - (2'-aminobiphenylyl)(chloro)palladium (1:1) (67 mg, 0.085 mmol)
and cesium carbonate (550 mg, 1.7 mmol) in 1,4-dioxane (2 mL)/water (1 mL) was
purged with nitrogen three times. The reaction was heated to 53 C for 2 h. The
mixture was diluted with EtOAc, washed with brine, concentrated. The resulting
reside was purified first on silica gel (eluting with 0-100% EtOAc/hexanes followed
by 10% methanol/dichloromethane), and then by prep-LCMS (XBridge C18 column,
eluting with a gradient of acetonitrile/water containing 0.1% ammonium hydroxide, at
flow rate of 60 mL/min) to give the desired product (0.1 g, 40%). H NMR (500 MHz,
DMSO-d ) δ 8.64 (1H, d, J = 1.5 Hz), 8.12(1H, s), 8.06 (1H, d, J = 8.0 Hz), 7.96 (1H,
d, J = 1.0 Hz), 7.71 (1H, s), 4.72 (2H, d, J = 9.5 Hz), 4.49 (1H, d, J = 9.5 Hz), 4.08
(1H, m), 3.68 (2H, s), 2.22 (6H, s), 1.16 (6H, d, J = 6.5 Hz) ppm. LCMS calculated
for C H N O (M+H) : m/z = 420.2; Found: 420.0.
21 26 9
Example 9. 5-[3-(Cyanomethyl)(3',5'-dimethyl-1H,1'H-4,4'-bipyrazol
yl)azetidinyl]-N-[(1S)-2,2,2-trifluoromethylethyl]pyrazinecarboxamide
trifluoroacetate
Step 1. [3-(3',5'-Dimethyl-1H,1'H-4,4'-bipyrazolyl)azetidinyl]acetonitrile
hydrochloride
A mixture of tert-butyl 3-(cyanomethyl)[4-(4,4,5,5-tetramethyl-1,3,2-
dioxaborolanyl)-1H-pyrazolyl]azetidinecarboxylate (381 mg, 0.981 mmol,
from Example 1, step 2), 4-bromo-3,5-dimethyl-1H-pyrazole (206 mg, 1.18 mmol),
tetrakis(triphenylphosphine)palladium(0) (110 mg, 0.098 mmol) and sodium
carbonate (310 mg, 2.9 mmol) in 1,4-dioxane (10 mL) and water (5 mL) was purged
with N and stirred at 110 °C for 2 h. The reaction mixture was filtered, diluted with
EtOAc, then washed with water. The organic layer was concentrated and purified on
silica gel (eluting with 0-100% EtOAc/hexanes followed by 0-10%
MeOH/dichloromethane) to give tert-butyl 3-(cyanomethyl)(3',5'-dimethyl-1H,1'H-
4,4'-bipyrazolyl)azetidinecarboxylate (90 mg, 26%). LCMS calculated for
C H N O (M+H) : m/z = 357.2; Found: 357.2. This intermediate was treated with
18 25 6 2
4.0 M hydrogen chloride in dioxane (1.2 mL, 4.9 mmol) in methylene chloride (1
mL) at rt for 2 h. The mixture was stripped to dryness to give the desired product.
LCMS calculated for C H N (M+H) : m/z = 257.1; Found: 257.1.
13 17 6
Step 2. 5-[3-(Cyanomethyl)(3',5'-dimethyl-1H,1'H-4,4'-bipyrazolyl)azetidin
yl]-N-[(1S)-2,2,2-trifluoromethylethyl]pyrazinecarboxamide trifluoroacetate
A mixture of [3-(3',5'-dimethyl-1H,1'H-4,4'-bipyrazolyl)azetidin
yl]acetonitrile hydrochloride (13 mg, 0.039 mmol), 5-chloro-N-[(1S)-2,2,2-trifluoro-
1-methylethyl]pyrazinecarboxamide (11 mg, 0.043 mmol, from Example 1, step
4) and N,N-diisopropylethylamine (28 μL, 0.16 mmol) in tert-butyl alcohol (1
mL) was heated at 100°C for 2 h. After cooling, the mixture was diluted with MeOH
and purified on prep-LCMS (pH=2 conditions) to give the desired producr as TFA
salt (4.1 mg, 22%). LCMS calculated for C H F N O (M+H) : m/z = 474.2; Found:
21 23 3 9
474.0.
Example 10. 5-[3-(Cyanomethyl)(3-methyl-1H,1'H-4,4'-bipyrazol
yl)azetidinyl]-N-isopropylpyrazinecarboxamide trifluoroacetate
HN N
Step 1: tert-Butyl 4-bromo -1H-pyrazolecarboxylate
This compound was prepared by using procedures analogous to those
described for the synthesis of Example 1, Step 6 starting from 4-bromo-1H-pyrazole.
LCMS calculated for C H BrN O (M-55) : m/z = 191.0; Found: 190.9
4 4 2 2
Step 2: 5-[3-(Cyanomethyl)(3-methyl-1H,1'H-4,4'-bipyrazolyl)azetidinyl]-N-
isopropylpyrazinecarboxamide trifluoroacetate
This compound was prepared as TFA salt by using procedures analogous to
those described for the synthesis of Example 4, Step 6 starting from tert-butyl 4-
bromo-1H-pyrazolecarboxylate and 5-{3-(cyanomethyl)[3-methyl(4,4,5,5-
tetramethyl-1,3,2-dioxaborolanyl)-1H-pyrazolyl]azetidinyl}-N-
isopropylpyrazinecarboxamide. LCMS calculated for C20H24N9O (M+1) : m/z =
406.2; Found: 406.1.
Example 11. 5-[3-(Cyanomethyl)(3'-ethyl-1H,1'H-4,4'-bipyrazolyl)azetidin-
1-yl]-N-[(1S)-2,2,2-trifluoromethylethyl]pyrazinecarboxamide
trifluoroacetate
This compound was prepared as TFA salt by using procedures analogous to
those described for the synthesis of Example 4, Step 6 starting from 5-{3-
(cyanomethyl)[4-(4,4,5,5-tetramethyl-1,3,2-dioxaborolanyl)-1H-pyrazol
yl]azetidinyl}-N-[(1S)-2,2,2-trifluoromethylethyl]pyrazinecarboxamide
(Example 1, Step 5) and 4-bromoethyl-1H-pyrazole. LCMS calculated for
C H F N O (M+1) : m/z = 474.2; Found: 474.0.
21 23 3 9
Example 12. 4-{3-(Cyanomethyl)[3'-(hydroxymethyl)-1H,1'H-4,4'-bipyrazol
yl]azetidinyl}-2,5-difluoro-N-[(1S)-2,2,2-trifluoromethylethyl]benzamide
trifluoroacetate
HN N
Step 1: (4-Bromo-1H-pyrazolyl)methanol
Sodium tetrahydroborate (0.13 g, 3.4 mmol) was added to a solution of 4-
bromo-1H-pyrazolecarbaldehyde (0.30 g, 1.7 mmol, from Maybridge) in
tetrahydrofuran (5 mL). The reaction mixture was stirred at 50 °C for 1 h. The
reaction mixture was quenched with saturated aqueous NaHCO , and extracted with
ethyl acetate (3 x 20 mL). The combined organic layers were washed with brine, dried
over MgSO , filtered and concentrated under reduced pressure to afford the crude
product which was directly used in the next step reaction without further
purification. LCMS calculated for C H BrN O (M+1) : m/z = 177.0; Found: 176.9.
4 6 2
Step 2: 4-{3-(Cyanomethyl)[3'-(hydroxymethyl)-1H,1'H-4,4'-bipyrazol
yl]azetidinyl}-2,5-difluoro-N-[(1S)-2,2,2-trifluoromethylethyl]benzamide
trifluoroacetate
This compound was prepared as TFA salt by using procedures analogous to
those described for the synthesis of Example 4, Step 6 starting from 4-{3-
(cyanomethyl)[4-(4,4,5,5-tetramethyl-1,3,2-dioxaborolanyl)-1H-pyrazol
yl]azetidinyl}-2,5-difluoro-N-[(1S)-2,2,2-trifluoromethylethyl]benzamide and
(4-bromo-1H-pyrazolyl)methanol. LCMS calculated for C H F N O (M+1) :
22 21 5 7 2
m/z = 510.2; Found: 510.0.
Example 13. 4-{3-(Cyanomethyl)[3-(hydroxymethyl)-3'-methyl-1H,1'H-4,4'-
bipyrazolyl]azetidinyl}-2,5-difluoro-N-[(1S)-2,2,2-trifluoro
methylethyl]benzamide
HN N
Step 1. Ethyl 4-bromo{3-(cyanomethyl)[2,5-difluoro({[(1S)-2,2,2-trifluoro
methylethyl]amino}carbonyl)phenyl]azetidinyl}-1H-pyrazolecarboxylate
To a microwave vial was added isopropyl alcohol (10 mL), ethyl 4-bromo-
1H-pyrazolecarboxylate (from ChemBridge) (788 mg, 3.60 mmol), 1,8-
diazabicyclo[5.4.0]undecene (48.9 μL, 0.327 mmol) and 4-[3-
(cyanomethylene)azetidinyl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoro
methylethyl]benzamide (from Example 4 step 4, 1.13 g, 3.27 mmol). The reaction
mixture was stirred at 80 °C for 2 h. After cooling to room temperature, the solvent
was removed in vacuo. The residue was purified with flash chromatography (eluting
with 0-35% ethyl acetate in hexanes) to give the desired product as white foam. H
NMR (500 MHz, DMSO) δ 8.61 (s, 1H), 8.47 (d, J = 8.7 Hz, 1H), 7.34 (dd, J = 12.5
and 6.3 Hz, 1H), 6.62 (dd, J = 11.9 and 7.3 Hz, 1H), 4.76 (dt, J = 15.5 and 7.8 Hz,
1H), 4.61 (d, J = 9.2 Hz, 2H), 4.39 (d, J = 8.0 Hz, 2H), 4.32 (q, J = 7.1 Hz, 2H), 3.68
(s, 2H), 1.31 (m, 6H) ppm. LCMS calculated for C21H20BrF5N5O3 (M+H) : m/z =
564.1; Found: 563.8.
Step 2. Ethyl 1-{3-(cyanomethyl)[2,5-difluoro({[(1S)-2,2,2-trifluoro
methylethyl]amino}carbonyl)phenyl]azetidinyl}-3'-methyl-1H,1'H-4,4'-bipyrazole-
3-carboxylate
To a microwave vial were charged with tert-butyl alcohol (1.2 mL), and water
(1.2 mL), cesium fluoride (683 mg, 4.50 mmol), ethyl 4-bromo{3-(cyanomethyl)-
1-[2,5-difluoro({[(1S)-2,2,2-trifluoro
methylethyl]amino}carbonyl)phenyl]azetidinyl}-1H-pyrazolecarboxylate (725
mg, 1.28 mmol) and 3-methyl(4,4,5,5-tetramethyl-1,3,2-dioxaborolanyl)-1H-
pyrazole (401 mg, 1.93 mmol), followed by Pd-127 (49 mg, 0.064 mmol) (from
Johnson Mathew). The reaction mixture was heated at 85°C for 48 h. The reaction
was cooled to room temperature, diluted with water and ethyl acetate. The aqueous
layer was extracted with ethyl acetate. The organic layer was dried over Na SO ,
concentrated. The resulting residue was purified with flash chromatography (eluting
with 30-100% ethyl acetate in hexanes) to give the desired product as an oil. LCMS
calculated for C H F N O (M+H) : m/z = 566.2; Found: 566.0.
25 5 7 3
Step 3. 4-{3-(Cyanomethyl)[3-(hydroxymethyl)-3'-methyl-1H,1'H-4,4'-bipyrazol
yl]azetidinyl}-2,5-difluoro-N-[(1S)-2,2,2-trifluoromethylethyl]benzamide
To a solution of ethyl 1-{3-(cyanomethyl)[2,5-difluoro({[(1S)-2,2,2-
trifluoromethylethyl]amino}carbonyl)phenyl]azetidinyl}-3'-methyl-1H,1'H-4,4'-
bipyrazolecarboxylate (35 mg, 0.062 mmol) in THF (0.5 mL) was added 2.0 M
lithium tetrahydroborate in THF (0.12 mL, 0.25 mmol). The reaction mixture was
stirred at room temperature overnight. The reaction was quenched with water slowly.
The aqueous layer was extracted with ethyl acetate. The organic layer was
concentrated. The resulting residue was purified with prep-LCMS (XBridge C18
column, eluting with a gradient of acetonitrile/water containing 0.1% ammonium
hydroxide, at flow rate of 60 mL/min) to give the desired product. H NMR (400
MHz, CDCl ) δ 7.79 – 7.68 (m, 2H), 7.61 (s, 1H), 6.65 (m, 1H), 6.20 (m, 1H), 4.99 –
4.89 (m, 1H), 4.68 (s, 2H), 4.60 (d, J = 8.5 Hz, 2H), 4.45 (dd, J = 8.9 and 2.0 Hz, 2H),
3.38 (s, 2H), 2.34 (s, 3H), 1.41 (d, J = 7.0 Hz, 3H). LCMS calculated for
C23H23F5N7O2 (M+H) : m/z = 524.2; Found: 524.0.
Example 14. 4-[3-(Cyanomethyl)(3',5'-dimethyl-1H,1'H-4,4'-bipyrazol
yl)azetidinyl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoromethylethyl]benzamide
phosphoric acid salt (Procedure 1)
To 4-[3-(cyanomethyl)(3',5'-dimethyl-1H,1'H-4,4'-bipyrazolyl)azetidin-
1-yl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoromethylethyl]benzamide (24.8 mg, 0.0489
mmol) was added ethanol (0.3 mL) and the mixture was stirred to form a clear
solution. Phosphoric acid in isopropanol (0.064 mL, 1 M, 0.064 mmol, 1.3 eq.) was
added and the mixture was stirred for 2 minutes to form a slurry. This slurry was then
stirred continuously overnight. This mixture was filtered, and the filter cake washed
with methyl tert-butyl ether (MTBE). The filter cake was air-dried to afford the title
salt (26.3 mg, 88.9%). The X-ray powder diffraction (XRPD) pattern was determined
for the phosphoric acid salt and is shown in Figure 1. A list of 2-theta peaks is
provided in Table 2 below.
Table 2
2-Theta Height H%
6.848 841 64.7
8.225 135 10.4
11.778 214 16.5
12.854 378 29.1
13.577 543 41.7
14.741 157 12.1
.967 589 45.3
16.557 1061 81.6
17.425 216 16.6
18.021 299 23
19.907 1139 87.6
.791 1300 100
21.267 248 19.1
22.556 168 12.9
23.77 949 73
24.667 716 55.1
.698 913 70.2
26.159 434 33.4
27.392 140 10.8
28.647 199 15.3
29.667 251 19.3
.411 333 25.6
31.213 141 10.9
32.115 84 6.5
32.893 170 13.1
33.572 109 8.4
34.449 108 8.3
.264 82 6.3
.741 78 6
36.709 170 13.1
37.381 103 7.9
38.828 63 4.9
39.443 117 9
40.559 88 6.8
41.227 88 6.8
43.396 61 4.7
44.1 90 6.9
Example 15. 4-[3-(Cyanomethyl)(3',5'-dimethyl-1H,1'H-4,4'-bipyrazol
yl)azetidinyl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoromethylethyl]benzamide
phosphoric acid salt (Procedure 2)
To 4-[3-(cyanomethyl)(3',5'-dimethyl-1H,1'H-4,4'-bipyrazolyl)azetidin-
1-yl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoromethylethyl]benzamide (24.6 mg, 0.0485
mmol) was added acetonitrile (0.3 mL) and the mixture was stirred to form a clear
solution. Phosphoric acid in isopropanol (0.063 mL, 1 M, 0.063 mmol, 1.3 eq.) was
added and the mixture was stirred for 2 h to form a slurry, which was then stirred
continuously overnight. This mixture was filtered, and the filter cake washed with
MTBE. The filter cake was air-dried to afford the title salt (26.27 mg, 89.5%). The
XRPD pattern was determined for the phosphoric acid salt and is shown in Figure 2.
A list of 2-theta peaks is provided in Table 3 below.
Table 3
2-Theta Height H%
6.884 499 54.1
8.305 90 9.7
11.868 165 17.9
12.945 302 32.8
13.685 411 44.6
14.831 125 13.6
16.116 368 40
16.656 818 88.8
17.528 184 19.9
18.135 278 30.1
.003 845 91.7
.898 921 100
21.335 178 19.3
22.409 139 15.1
22.701 135 14.6
23.894 711 77.2
24.796 535 58.1
.821 778 84.4
26.266 245 26.6
27.483 122 13.2
28.742 160 17.4
29.761 208 22.6
.539 237 25.7
31.331 111 12
32.176 55 5.9
33.026 134 14.5
33.714 88 9.5
34.542 69 7.5
.263 60 6.5
.829 48 5.3
36.838 108 11.8
37.369 64 7
38.956 53 5.8
39.631 89 9.7
40.7 75 8.2
41.298 71 7.7
43.504 54 5.9
44.228 76 8.3
Example 16. 4-[3-(Cyanomethyl)(3',5'-dimethyl-1H,1'H-4,4'-bipyrazol
yl)azetidinyl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoromethylethyl]benzamide
phosphoric acid salt (Procedure 3)
To 4-[3-(cyanomethyl)(3',5'-dimethyl-1H,1'H-4,4'-bipyrazolyl)azetidin-
1-yl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoromethylethyl]benzamide (98.93 mg, 0.195
mmol) was added isopropanol (1.23 mL) and the mixture was stirred to form a clear
solution. Phosphoric acid in isopropanol (0.273 mL, 1 M, 0.273 mmol, 1.4 eq.) was
added and the mixture stirred for 1 h at 70 C to form a slurry. This slurry was then
cooled to room temperature and stirred overnight. This mixture was filtered, and the
filter cake washed with MTBE. The filter cake was air-dried to afford the title salt
(109.1 mg, 92.4%). The XRPD pattern was determined for the phosphoric acid salt
and is shown in Figure 3. A list of 2-theta peaks is provided in Table 4 below.
Table 4
2-Theta Height H%
6.856 1268 100
8.237 133 10.5
11.765 209 16.5
12.859 343 27
13.596 472 37.2
14.74 127 10
.931 403 31.8
16.569 912 72
17.425 177 13.9
17.964 80 6.3
18.495 117 9.2
19.926 876 69
.783 865 68.2
21.274 197 15.6
22.561 152 12
23.727 634 50
24.637 370 29.2
.706 443 35
26.157 290 22.9
27.597 117 9.3
28.627 120 9.5
29.682 151 11.9
.389 186 14.6
31.186 103 8.1
32.128 55 4.3
32.872 98 7.7
33.483 72 5.7
34.435 87 6.8
.257 42 3.3
.742 56 4.4
36.667 95 7.5
37.413 84 6.7
39.574 56 4.4
41.182 60 4.8
44.124 64 5
Example 17. 4-[3-(Cyanomethyl)(3',5'-dimethyl-1H,1'H-4,4'-bipyrazol
yl)azetidinyl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoromethylethyl]benzamide
phosphoric acid salt (Procedure 4)
Step 1. 4-[3-(Cyanomethyl)(3',5'-dimethyl-1H,1'H-4,4'-bipyrazolyl)azetidin
yl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoromethylethyl]benzamide phosphoric acid salt
(crude)
To a clear solution of 4-[3-(cyanomethyl)(3',5'-dimethyl-1H,1'H-4,4'-
bipyrazolyl)azetidinyl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoro
methylethyl]benzamide (405.0 g, 798.1 mmol) in methanol (520.0
mL) and isopropanol (2550.0 mL) at 50 °C was added an aqueous solution of 85%
phosphoric acid (119.65 g, 1037.8 mmol) in isopropanol (120.0 mL) over 18 minutes
to form a slurry. The resulting slurry was stirred at 50 °C for 1 h. n-Heptane (4050.0
mL) was then added to the slurry over 40 min, while maintaining the internal
temperature of the slurry between 46 to 53 °C. After the addition of n-heptane, the
slurry was gradually cooled to room temperature and stirred at room temperature for
19 h. The solids were then collected by filtration, washed with a mixture of
isopropanol and n-heptane (3 : 10 by volume, 2 x 700 mL) followed by n-heptane (3 x
550 mL), and dried under vacuum at room temperature to afford crude 4-[3-
(cyanomethyl)(3',5'-dimethyl-1H,1'H-4,4'-bipyrazolyl)azetidinyl]-2,5-
difluoro-N-[(1S)-2,2,2-trifluoromethylethyl]benzamide phosphoric acid salt (434.6
g, 89.9% yield).
Step 2. 4-[3-(Cyanomethyl)(3',5'-dimethyl-1H,1'H-4,4'-bipyrazolyl)azetidin
yl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoromethylethyl]benzamide phosphoric acid salt
(purified)
Into a 22 L round bottom flask equipped with an overhead stirring mechanism
and a Teflon-coated thermocouple was added 4-[3-(cyanomethyl)(3',5'-dimethyl-
1H,1'H-4,4'-bipyrazolyl)azetidinyl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoro
methylethyl]benzamide phosphoric acid salt of Step 1 (958.3 g, 1583 mmol) and
methanol (MeOH, 9583.0 mL) at room temperature. The resulting slurry was heated
to 50 °C to give a clear, light-orange colored solution. The solution was polish
filtered, transferred back to the 22 L flask and heated to reflux to distill methanol
(4793 g, 6090 mL) over 70 min. Isopropanol (7700 mL) was then added to the flask
over 30 min while maintaining the solution temperature between 50 to 65 °C. After
complete addition of isopropanol, n-heptane (14400 mL) was added portion-wise
while maintaining a gentle distillation of the solvent mixture (MeOH, IPA and n-
heptane) over 2.5 h. A total of 10818 g (15000 mL) of the solvent mixture was
distilled. The resulting slurry was gradually cooled to room temperature, and stirred
at room temperature for 17 h. The solids were collected by filtration, washed with a
mixture of isopropanol and n-heptane (1 : 5 by volume, 3000 mL) followed by n-
heptane (3 x 4000 mL), and dried under vacuum at room temperature to afford the
title compound as off-white crystalline powder (925.7 g, 96.6% yield).
The phosphoric acid salt was shown to be a 1:1 salt by H NMR and
crystallinity was confirmed by XRPD. H NMR (400 MHz, DMSO-d ): δ 9.35 (br. s,
4H), 8.50 (d, J = 8.9 Hz, 1H), 8.11 (s, 1H), 7.70 (s, 1H), 7.34 (dd, J = 12.5, 6.4 Hz,
1H), 6.61 (dd, J = 12.0, 7.4 Hz, 1H), 4.86 – 4.69 (m, 1H), 4.61 (d, J = 8.9 Hz, 2H),
4.38 (d, J = 8.9 Hz, 2H), 3.64 (s, 2H), 2.21 (s, 6H), 1.30 (d, J = 7.1 Hz, 3H); C NMR
(100 MHz, DMSO-d ) δ 162.8, 156.7 (d, J = 246.5 Hz), 146.9 (d, J = 236.1 Hz),
6 CF CF
141.6 (dd, JCF = 13.0, 11.7 Hz), 140.3, 138.3, 125.8 (q, JCF = 281.8 Hz), 125.6, 117.2,
116.4 (dd, J = 22.3, 4.6 Hz), 115.1, 111.3 (dd, J = 15.7, 5.8 Hz), 107.7 , 102.0
CF CF
(dd, J = 29.5, 4.5 Hz), 62.3, 57.7, 57.7, 45.8 (q, J = 30.5 Hz), 27.0, 13.3 (d, J =
CF CF CF
1.7 Hz), 11.7. C H F N O (calc. MW 507.46); LCMS: (EI) m/e 508.1 (M + H).
23 22 5 7
DSC showed a sharp melting peak at about 227.62°C (onset at 224.45 C) as shown in
Figure 4A. The title compound showed a weight loss of 0.129% up to 200 °C as
shown in Figure 4B. The XRPD pattern was determined for the phosphoric acid salt
and is shown in Figure 4C. A list of 2-theta peaks is provided in Table 5 below.
Table 5
2-Theta Height H%
6.805 8160 100
7.278 56 0.7
8.164 230 2.8
11.065 68 0.8
11.685 1060 13
12.798 260 3.2
13.512 920 11.3
14.667 110 1.3
.923 686 8.4
16.49 2186 26.8
17.022 236 2.9
17.292 111 1.4
17.991 137 1.7
18.448 703 8.6
19.827 1407 17.2
.677 2119 26
21.236 199 2.4
22.079 275 3.4
22.421 406 5
23.592 2119 26
24.635 424 5.2
.317 296 3.6
.64 674 8.3
26.161 363 4.5
27.284 94 1.2
27.989 198 2.4
28.628 118 1.4
29.63 135 1.7
.419 455 5.6
32.099 60 0.7
32.832 148 1.8
33.346 166 2
34.436 447 5.5
.711 117 1.4
36.719 295 3.6
37.349 135 1.7
38.802 53 0.6
39.585 108 1.3
40.565 64 0.8
41.224 260 3.2
42.44 68 0.8
Example 18. 4-[3-(Cyanomethyl)(3',5'-dimethyl-1H,1'H-4,4'-bipyrazol
yl)azetidinyl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoromethylethyl]benzamide
hydrochloric acid salt (Procedure 1)
To 4-[3-(cyanomethyl)(3',5'-dimethyl-1H,1'H-4,4'-bipyrazolyl)azetidin-
1-yl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoromethylethyl]benzamide (97.64 mg, 0.192
mmol) was added 2-butanol (1.2 mL) and the mixture was stirred for 2 min to afford a
clear solution. Hydrochloric acid in isopropanol/isopropylacetate (0.29 mL, 1 M in
IPA/IPAc from 3.7 M HCl in IPAc, 0.29 mmol, 1.5 eq.) was added to give a clear
solution. This solution was stirred for 6 min to form a slurry. This slurry was then
stirred at room temperature for 5 h. The slurry was then filtered and the filter cake
was washed with MTBE. The filter cake was dried under vacuum for 12 h at 45-50 C
to afford the title salt (97.8 mg, 93.4%). DSC showed a sharp melting peak at about
213.07°C (onset at 209.22 C) as shown in Figure 5A. The title compound showed a
weight loss of 4.635% up to about 210°C as shown in Figure 5B. The XRPD pattern
was determined for the hydrochloric acid salt and is shown in Figure 5C. A list of 2-
theta peaks is provided in Table 6 below.
Table 6
2-Theta Height H%
7.067 208 38
12.234 289 53
13.716 308 56.4
14.48 133 24.4
14.784 295 54
.459 289 52.9
16.259 181 33.1
16.609 359 65.7
17.121 347 63.5
19.486 129 23.5
.439 147 27
21.259 95 17.4
22.865 223 40.8
23.857 335 61.3
24.771 546 100
.704 204 37.4
26.496 284 51.9
27.429 334 61.1
28.354 194 35.6
28.71 106 19.3
31.472 70 12.8
31.84 117 21.4
34.09 117 21.5
40.551 58 10.6
41.48 75 13.8
44.075 53 9.7
Example 19. 4-[3-(Cyanomethyl)(3',5'-dimethyl-1H,1'H-4,4'-bipyrazol
yl)azetidinyl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoromethylethyl]benzamide
hydrochloric acid salt (Procedure 2)
To 4-[3-(cyanomethyl)(3',5'-dimethyl-1H,1'H-4,4'-bipyrazolyl)azetidin-
1-yl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoromethylethyl]benzamide (52.12 mg, 0.103
mmol) was added isopropanol (0.5 mL) and the mixture was stirred for 3 min to form
a clear solution. Hydrochloric acid in isopropanol/isopropylacetate (0.144 mL, 1 M in
IPA/IPAc from 3.7 M HCl in IPAc, 0.144 mmol, 1.4 eq.) was then added, resulting in
a clear solution. This clear solution was stirred for 6-8 minutes to form a slurry. This
slurry was then stirred at room temperature for 5 h. The slurry was then filtered and
the filter cake was washed with MTBE. The filter cake was air-dried to afford the
title salt (51.2 mg, 91.6%). The XRPD pattern was determined for the hydrochloric
acid salt and is shown in Figure 6. A list of 2-theta peaks is provided in Table 7
below.
Table 7
2-Theta Height H%
6.967 164 47.1
12.082 267 76.8
13.388 202 58
13.71 150 43.1
14.831 101 29.1
.438 97 27.9
16.243 174 50.1
16.634 348 100
16.97 189 54.2
17.576 76 21.8
19.672 96 27.5
.758 141 40.6
21.163 94 27.1
22.879 110 31.7
23.928 115 33
24.735 128 36.8
.097 149 42.9
26.444 120 34.4
26.767 112 32.2
27.416 147 42.3
28.344 105 30.2
28.686 105 30.2
29.508 58 16.7
.156 67 19.2
31.853 50 14.3
41.126 44 12.7
Example 20. 4-[3-(Cyanomethyl)(3',5'-dimethyl-1H,1'H-4,4'-bipyrazol
yl)azetidinyl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoromethylethyl]benzamide
hydrobromic acid salt
To 4-[3-(cyanomethyl)(3',5'-dimethyl-1H,1'H-4,4'-bipyrazolyl)azetidin-
1-yl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoromethylethyl]benzamide (54.74 mg, 0.108
mmol) was added isopropanol (0.6 mL) and the mixture was stirred for 3 min to give
a clear solution. Hydrobromic acid in isopropanol/water (0.151 mL, 1 M IPA/water
from 48% HBr in water, 0.144 mmol, 1.4 eq.) was added, resulting in a clear solution,
which was then stirred for about 8 minutes to form a slurry. This slurry was stirred at
room temperature for 5 h. The slurry was then filtered and the filter cake was washed
with MTBE. The filter cake was air-dried to afford the title salt (53.12 mg, 83.7%).
DSC showed a sharp melting peak at about 203.19°C (onset at 199.26 C) as shown in
Figure 7A. The title compound showed only slight weight loss up to about 100°C as
shown in Figure 7B. The XRPD pattern was determined for the hydrobromic acid salt
and is shown in Figure 7C. A list of 2-theta peaks is provided in Table 8 below.
Table 8
2-Theta Height H%
7.007 254 36.6
12.179 139 20.1
12.445 116 16.8
13.468 86 12.4
14.377 297 42.9
.042 65 9.4
.622 192 27.6
16.211 140 20.1
17.051 281 40.5
17.407 87 12.5
18.5 62 8.9
19.583 121 17.5
.222 308 44.4
21.104 347 50
22.821 376 54.2
23.484 338 48.8
23.663 137 19.8
24.279 137 19.8
24.889 693 100
.425 171 24.7
.99 76 11
26.62 203 29.3
27.095 330 47.6
27.483 116 16.7
28.208 382 55.1
28.572 159 22.9
29.801 134 19.3
.33 89 12.8
31.278 160 23
31.971 66 9.5
33.731 118 17.1
34.608 103 14.8
.638 68 9.8
36.746 111 16
38.497 72 10.3
39.297 112 16.2
40.476 98 14.2
41.364 169 24.4
43.37 68 9.8
43.804 60 8.7
Example 21. 4-[3-(Cyanomethyl)(3',5'-dimethyl-1H,1'H-4,4'-bipyrazol
yl)azetidinyl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoromethylethyl]benzamide
sulfuric acid salt (Procedure 1)
To 4-[3-(cyanomethyl)(3',5'-dimethyl-1H,1'H-4,4'-bipyrazolyl)azetidin-
1-yl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoromethylethyl]benzamide (47 mg, 0.103
mmol) was added isopropanol (0.5 mL) and the mixture was stirred for 3 min to give
a clear solution. Sulfuric acid in isopropanol (0.5 M in IPA from 98% sulfuric acid,
0.051 mmol, 0.55 eq.) was added, resulting in a clear solution, which was then stirred
for 6-8 minutes to form a slurry. This slurry was then stirred at room temperature for
h. The slurry was then filtered and the filter cake was washed with MTBE. The
filter cake was air-dried to afford the title salt (18.84 mg, 33.6%). DSC showed two
o o o
endotherms at 136.16 C and 146.97 C (onset at 122.15 C) and a sharp endotherm at
259.16 C (onset at 255.09 C) as shown in Figure 8A. The XRPD pattern was
determined for the sulfuric acid salt and is shown in Figure 8B. A list of 2-theta peaks
is provided in Table 9 below.
Table 9
2-Theta Height H%
3.742 151 18.4
7.322 228 27.7
9.892 93 11.3
12.57 74 9
13.642 56 6.8
14.713 341 41.4
16.307 81 9.8
17.412 60 7.3
18.978 125 15.2
19.628 823 100
.982 73 8.9
21.256 212 25.8
22.041 66 8
24.625 691 84
.902 66 8
26.529 123 15
27.083 174 21.1
28.18 175 21.2
.706 91 11.1
32.369 53 6.4
34.766 96 11.6
38.298 50 6
38.663 74 9
42.485 48 5.8
Example 22. 4-[3-(Cyanomethyl)(3',5'-dimethyl-1H,1'H-4,4'-bipyrazol
yl)azetidinyl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoromethylethyl]benzamide
sulfuric acid salt (Procedure 2)
To 4-[3-(cyanomethyl)(3',5'-dimethyl-1H,1'H-4,4'-bipyrazolyl)azetidin-
1-yl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoromethylethyl]benzamide (27.91 mg, 0.055
mmol) was added isopropanol (0.5 mL) to form a clear solution. Sulfuric acid in
water (1.0 M, 0.06 mmol, 1.09 eq.) was added and the resulting mixture was stirred to
form a slurry. This slurry was heated to 60 C and stirred to yield a clear solution.
The solution was cooled to room temperature and stirred continuously overnight. The
resulting mixture was filtered and the filter cake was washed with MTBE. The filter
cake was then dried to afford the title salt. The XRPD pattern was determined for the
sulfuric acid salt and is shown in Figure 9. A list of 2-theta peaks is provided in Table
below.
Table 10
2-Theta Height H%
4.843 191 22.5
7.313 218 25.8
9.856 116 13.7
12.556 95 11.2
13.61 57 6.8
14.703 361 42.6
.261 64 7.5
16.309 147 17.3
18.941 149 17.6
19.611 847 100
.952 113 13.3
21.242 241 28.4
21.708 100 11.8
24.609 620 73.2
26.513 130 15.3
27.026 126 14.8
28.19 167 19.7
.659 86 10.1
32.346 60 7
34.711 108 12.7
38.597 82 9.7
41.082 55 6.4
42.435 43 5.1
Example A: In vitro JAK Kinase Assay
Compounds herein were tested for inhibitory activity of JAK targets according
to the following in vitro assay described in Park et al., Analytical Biochemistry 1999,
269, 94-104. The catalytic domains of human JAK1 (a.a. 837-1142), JAK2 (a.a. 828-
1132) and JAK3 (a.a. 781-1124) with an N-terminal His tag were expressed using
baculovirus in insect cells and purified. The catalytic activity of JAK1, JAK2 or JAK3
was assayed by measuring the phosphorylation of a biotinylated peptide. The
phosphorylated peptide was detected by homogenous time resolved fluorescence
(HTRF). IC50s of compounds were measured for each kinase in the 40 microL
reactions that contain the enzyme, ATP and 500 nM peptide in 50 mM Tris (pH 7.8)
buffer with 100 mM NaCl, 5 mM DTT, and 0.1 mg/mL (0.01%) BSA. For the 1 mM
IC measurements, ATP concentration in the reactions was 1 mM. Reactions were
carried out at room temperature for 1 hour and then stopped with 20 μL 45 mM
EDTA, 300 nM SA-APC, 6 nM Eu-Py20 in assay buffer (Perkin Elmer, Boston, MA).
Binding to the Europium labeled antibody took place for 40 minutes and HTRF signal
was measured on a Fusion plate reader (Perkin Elmer, Boston, MA). See Table 11 for
data related to compounds of the examples.
Table 11. IC50 data for JAK enzyme assay (at 1 mM ATP)
Example No. JAK1 JAK2 JAK2/
IC (nM)* IC (nM)* JAK1
50 50
1 + ++++ >10
2 + ++ >10
3 + +++ >10
4 + ++ >10
++ +++ >10
6 + +++ >10
7 + ++ >10
8 + ++ >10
9 + ++ >10
++ +++
11 ++ +++
12 ++ +++
13 + +++ >10
17 + ++ >10
*300 nM or less (+); >300 nM to 1000 nM (++); >1000 nM (+++); >700 nM (++++)
Example B: Cellular Assays
Cancer cell lines dependent on cytokines and hence JAK/STAT signal
transduction, for growth, can be plated at 6000 cells per well (96 well plate format) in
RPMI 1640, 10% FBS, and 1 nG/mL of appropriate cytokine. Compounds can be
added to the cells in DMSO/media (final concentration 0.2% DMSO) and incubated
for 72 hours at 37 °C, 5% CO . The effect of compound on cell viability is assessed
using the CellTiter-Glo Luminescent Cell Viability Assay (Promega) followed by
TopCount (Perkin Elmer, Boston, MA) quantitation. Potential off-target effects of
compounds are measured in parallel using a non-JAK driven cell line with the same
assay readout. All experiments are typically performed in duplicate.
The above cell lines can also be used to examine the effects of compounds on
phosphorylation of JAK kinases or potential downstream substrates such as STAT
proteins, Akt, Shp2, or Erk. These experiments can be performed following an
overnight cytokine starvation, followed by a brief preincubation with compound (2
hours or less) and cytokine stimulation of approximately 1 hour or less. Proteins are
then extracted from cells and analyzed by techniques familiar to those schooled in the
art including Western blotting or ELISAs using antibodies that can differentiate
between phosphorylated and total protein. These experiments can utilize normal or
cancer cells to investigate the activity of compounds on tumor cell survival biology or
on mediators of inflammatory disease. For example, with regards to the latter,
cytokines such as IL-6, IL-12, IL-23, or IFN can be used to stimulate JAK activation
resulting in phosphorylation of STAT protein(s) and potentially in transcriptional
profiles (assessed by array or qPCR technology) or production and/or secretion of
proteins, such as IL-17. The ability of compounds to inhibit these cytokine mediated
effects can be measured using techniques common to those schooled in the art.
Compounds herein can also be tested in cellular models designed to evaluate
their potency and activity against mutant JAKs, for example, the JAK2V617F
mutation found in myeloid proliferative disorders. These experiments often utilize
cytokine dependent cells of hematological lineage (e.g. BaF/3) into which the wild-
type or mutant JAK kinases are ectopically expressed (James, C., et al. Nature
434:1144-1148; Staerk, J., et al. JBC 280:41893-41899). Endpoints include the
effects of compounds on cell survival, proliferation, and phosphorylated JAK, STAT,
Akt, or Erk proteins.
Certain compounds herein can be evaluated for their activity inhibiting T-cell
proliferation. Such as assay can be considered a second cytokine (i.e. JAK) driven
proliferation assay and also a simplistic assay of immune suppression or inhibition of
immune activation. The following is a brief outline of how such experiments can be
performed. Peripheral blood mononuclear cells (PBMCs) are prepared from human
whole blood samples using Ficoll Hypaque separation method and T-cells (fraction
2000) can be obtained from PBMCs by elutriation. Freshly isolated human T-cells can
be maintained in culture medium (RPMI 1640 supplemented with10% fetal bovine
serum, 100 U/ml penicillin, 100 μg/ml streptomycin) at a density of 2 x 10 cells/ml at
37 °C for up to 2 days. For IL-2 stimulated cell proliferation analysis, T-cells are first
treated with Phytohemagglutinin (PHA) at a final concentration of 10 μg/mL for 72
hours. After washing once with PBS, 6000 cells/well are plated in 96-well plates and
treated with compounds at different concentrations in the culture medium in the
presence of 100 U/mL human IL-2 (ProSpec-Tany TechnoGene; Rehovot, Israel).
The plates are incubated at 37 °C for 72h and the proliferation index is assessed using
CellTiter-Glo Luminescent reagents following the manufactory suggested protocol
(Promega; Madison, WI).
Example C: In vivo anti-tumor efficacy
Compounds herein can be evaluated in human tumor xenograft models in
immune compromised mice. For example, a tumorigenic variant of the INA-6
plasmacytoma cell line can be used to inoculate SCID mice subcutaneously (Burger,
R., et al. Hematol J. 2:42-53, 2001). Tumor bearing animals can then be randomized
into drug or vehicle treatment groups and different doses of compounds can be
administered by any number of the usual routes including oral, i.p., or continuous
infusion using implantable pumps. Tumor growth is followed over time using
calipers. Further, tumor samples can be harvested at any time after the initiation of
treatment for analysis as described above (Example B) to evaluate compound effects
on JAK activity and downstream signaling pathways. In addition, selectivity of the
compound(s) can be assessed using xenograft tumor models that are driven by other
know kinases (e.g. Bcr-Abl) such as the K562 tumor model.
Example D: Murine Skin Contact Delayed Hypersensitivity Response Test
Compounds herein can also be tested for their efficacies (of inhibiting JAK
targets) in the T-cell driven murine delayed hypersensitivity test model. The murine
skin contact delayed-type hypersensitivity (DTH) response is considered to be a valid
model of clinical contact dermatitis, and other T-lymphocyte mediated immune
disorders of the skin, such as psoriasis (Immunol Today. 1998 Jan;19(1):37-44).
Murine DTH shares multiple characteristics with psoriasis, including the immune
infiltrate, the accompanying increase in inflammatory cytokines, and keratinocyte
hyperproliferation. Furthermore, many classes of agents that are efficacious in
treating psoriasis in the clinic are also effective inhibitors of the DTH response in
mice (Agents Actions. 1993 Jan;38(1-2):116-21).
On Day 0 and 1, Balb/c mice are sensitized with a topical application, to their
shaved abdomen with the antigen 2,4,dinitro-fluorobenzene (DNFB). On day 5, ears
are measured for thickness using an engineer’s micrometer. This measurement is
recorded and used as a baseline. Both of the animals’ ears are then challenged by a
topical application of DNFB in a total of 20 μL (10 μL on the internal pinna and 10
μL on the external pinna) at a concentration of 0.2%. Twenty-four to seventy-two
hours after the challenge, ears are measured again. Treatment with the test
compounds is given throughout the sensitization and challenge phases (day -1 to day
7) or prior to and throughout the challenge phase (usually afternoon of day 4 to day
7). Treatment of the test compounds (in different concentration) is administered
either systemically or topically (topical application of the treatment to the ears).
Efficacies of the test compounds are indicated by a reduction in ear swelling
comparing to the situation without the treatment. Compounds causing a reduction of
% or more were considered efficacious. In some experiments, the mice are
challenged but not sensitized (negative control).
The inhibitive effect (inhibiting activation of the JAK-STAT pathways) of the
test compounds can be confirmed by immunohistochemical analysis. Activation of
the JAK-STAT pathway(s) results in the formation and translocation of functional
transcription factors. Further, the influx of immune cells and the increased
proliferation of keratinocytes should also provide unique expression profile changes
in the ear that can be investigated and quantified. Formalin fixed and paraffin
embedded ear sections (harvested after the challenge phase in the DTH model) are
subjected to immunohistochemical analysis using an antibody that specifically
interacts with phosphorylated STAT3 (clone 58E12, Cell Signaling Technologies).
The mouse ears are treated with test compounds, vehicle, or dexamethasone (a
clinically efficacious treatment for psoriasis), or without any treatment, in the DTH
model for comparisons. Test compounds and the dexamethasone can produce similar
transcriptional changes both qualitatively and quantitatively, and both the test
compounds and dexamethasone can reduce the number of infiltrating cells. Both
systemically and topical administration of the test compounds can produce inhibitive
effects, i.e., reduction in the number of infiltrating cells and inhibition of the
transcriptional changes.
Example E: In vivo anti-inflammatory activity
Compounds herein can be evaluated in rodent or non-rodent models designed
to replicate a single or complex inflammation response. For instance, rodent models
of arthritis can be used to evaluate the therapeutic potential of compounds dosed
preventatively or therapeutically. These models include but are not limited to mouse
or rat collagen-induced arthritis, rat adjuvant-induced arthritis, and collagen antibody-
induced arthritis. Autoimmune diseases including, but not limited to, multiple
sclerosis, type I-diabetes mellitus, uveoretinitis, thyroditis, myasthenia gravis,
immunoglobulin nephropathies, myocarditis, airway sensitization (asthma), lupus, or
colitis may also be used to evaluate the therapeutic potential of compounds herein.
These models are well established in the research community and are familiar to those
schooled in the art (Current Protocols in Immunology, Vol 3., Coligan, J.E. et al,
Wiley Press.; Methods in Molecular Biology: Vol. 225, Inflammation Protocols.,
Winyard, P.G. and Willoughby, D.A., Humana Press, 2003.).
Example F: Animal Models for the Treatment of Dry Eye, Uveitis, and
Conjunctivitis
Agents may be evaluated in one or more preclinical models of dry eye known
to those schooled in the art including, but not limited to, the rabbit concanavalin A
(ConA) lacrimal gland model, the scopolamine mouse model (subcutaneous or
transdermal), the Botulinumn mouse lacrimal gland model, or any of a number of
spontaneous rodent auto-immune models that result in ocular gland dysfunction (e.g.
NOD-SCID, MRL/lpr, or NZB/NZW) (Barabino et al., Experimental Eye Research
2004, 79, 613-621 and Schrader et al., Developmental Opthalmology, Karger 2008,
41, 298-312, each of which is incorporated herein by reference in its entirety).
Endpoints in these models may include histopathology of the ocular glands and eye
(cornea, etc.) and possibly the classic Schirmer test or modified versions thereof
(Barabino et al.) which measure tear production. Activity may be assessed by dosing
via multiple routes of administration (e.g. systemic or topical) which may begin prior
to or after measurable disease exists.
Agents may be evaluated in one or more preclinical models of uveitis known
to those schooled in the art. These include, but are not limited to, models of
experimental autoimmune uveitis (EAU) and endotoxin induced uveitis (EIU). EAU
experiements may be performed in the rabbit, rat, or mouse and may involve passive
or activate immunization. For instance, any of a number or retinal antigens may be
used to sensitize animals to a relevant immunogen after which animals may be
challenged ocuarly with the same antigen. The EIU model is more acute and involves
local or systemic administration of lipopolysaccaride at sublethal doses. Endpoints
for both the EIU and EAU models may include fundoscopic exam, histopathology
amongst others. These models are reviewed by Smith et al. (Immunology and Cell
Biology 1998, 76, 497-512, which is incorporated herein by reference in its entirety).
Activity is assessed by dosing via multiple routes of administration (e.g. systemic or
topical) which may begin prior to or after measurable disease exists. Some models
listed above may also develop scleritis/episcleritis, chorioditis, cyclitis, or iritis and
are therefore useful in investigating the potential activity of compounds for the
therapeutic treatment of these diseases.
Agents may also be evaluated in one or more preclinical models of
conjunctivitis known those schooled in the art. These include, but are not limited to,
rodent models utilizing guinea-pig, rat, or mouse. The guinea-pig models include
those utilizing active or passive immunization and/or immune challenge protocols
with antigens such as ovalbumin or ragweed (reviewed in Groneberg, D.A., et al.,
Allergy 2003, 58, 1101-1113, which is incorporated herein by reference in its
entirety). Rat and mouse models are similar in general design to those in the guinea-
pig (also reviewed by Groneberg). Activity may be assessed by dosing via multiple
routes of administration (e.g. systemic or topical) which may begin prior to or after
measurable disease exists. Endpoints for such studies may include, for example,
histological, immunological, biochemical, or molecular analysis of ocular tissues such
as the conjunctiva.
Example G: In vivo protection of bone
Compounds may be evaluated in various preclinical models of osteopenia,
osteoporosis, or bone resorption known to those schooled in the art. For example,
ovariectomized rodents may be used to evaluate the ability of compounds to affect
signs and markers of bone remodeling and/or density (W.S.S. Jee and W. Yao, J
Musculoskel. Nueron. Interact., 2001, 1(3), 193-207, which is incorporated herein by
reference in its entirety). Alternatively, bone density and architecture may be
evaluated in control or compound treated rodents in models of therapy (e.g.
glucocorticoid) induced osteopenia (Yao, et al. Arthritis and Rheumatism, 2008,
58(6), 3485-3497; and id. 58(11), 1674-1686, both of which are incorporated herein
by reference in its entirety). In addition, the effects of compounds on bone resorption
and density may be evaluable in the rodent models of arthritis discussed above
(Example E). Endpoints for all these models may vary but often include histological
and radiological assessments as well as immunohisotology and appropriate
biochemical markers of bone remodeling.
Example H: S100A9 Transgenic Mouse Model
It was previously shown that S100A9 transgenic mice display bone marrow
accumulation of MDSC accompanied by development of progressive multilineage
cytopenias and cytological dysplasia similar to MDS. Further, early forced
maturation of MDSC by either all-trans-retinoic acid treatment or active
immunoreceptor tyrosine-based activation motif–bearing (ITAM-bearing) adapter
protein (DAP12) interruption of CD33 signaling rescued the hematologic phenotype
and mitigated the disease. This system can be useful to test the effects on JAK1
inhibition on MDS-like disease in a preclinical model. J. Clin. Invest., 123(11):4595-
4611 (2013), Accordingly, a JAK1 selective inhibitor is dosed by oral gavage. The
compound’s ability to reduce the cytopenias and cytological dysplasia observed in the
S100A9 transgenic mice is monitored.
Various modifications of the invention, in addition to those described herein,
will be apparent to those skilled in the art from the foregoing description. Such
modifications are also intended to fall within the scope of the appended claims. Each
reference cited in the present application, including all patent, patent applications, and
publications, is incorporated herein by reference in its entirety.
Claims (7)
1. A compound, which is 4-[3-(cyanomethyl)(3',5'-dimethyl-1H,1'H-4,4'- bipyrazolyl)azetidinyl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoro methylethyl]benzamide, or a pharmaceutically acceptable salt thereof.
2. A salt of a compound of claim 1, selected from: 4-[3-(cyanomethyl)(3',5'-dimethyl-1H,1'H-4,4'-bipyrazolyl)azetidin yl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoromethylethyl]benzamide phosphoric acid salt; 4-[3-(cyanomethyl)(3',5'-dimethyl-1H,1'H-4,4'-bipyrazolyl)azetidin yl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoromethylethyl]benzamide hydrochloric acid salt; 4-[3-(cyanomethyl)(3',5'-dimethyl-1H,1'H-4,4'-bipyrazolyl)azetidin yl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoromethylethyl]benzamide hydrobromic acid salt; and 4-[3-(cyanomethyl)(3',5'-dimethyl-1H,1'H-4,4'-bipyrazolyl)azetidin yl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoromethylethyl]benzamide sulfuric acid salt.
3. The salt according to claim 2, which is 4-[3-(cyanomethyl)(3',5'-dimethyl- 1H,1'H-4,4'-bipyrazolyl)azetidinyl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoro methylethyl]benzamide phosphoric acid salt.
4. The salt according to claim 2, which is 4-[3-(cyanomethyl)(3',5'-dimethyl- 1H,1'H-4,4'-bipyrazolyl)azetidinyl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoro methylethyl]benzamide hydrochloric acid salt.
5. The salt according to claim 2, which is 4-[3-(cyanomethyl)(3',5'-dimethyl- 1H,1'H-4,4'-bipyrazolyl)azetidinyl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoro methylethyl]benzamide hydrobromic acid salt.
6. The salt according to claim 2, which is 4-[3-(cyanomethyl)(3',5'-dimethyl- 1H,1'H-4,4'-bipyrazolyl)azetidinyl]-2,5-difluoro-N-[(1S)-2,2,2-trifluoro methylethyl]benzamide sulfuric acid salt.
7. A composition comprising the compound according to claim 1, or a pharmaceutically acceptable salt thereof, or a salt according to any one of claims 2 to 6, and a pharmaceutically acceptable carrier.
Applications Claiming Priority (3)
Application Number | Priority Date | Filing Date | Title |
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US201361824683P | 2013-05-17 | 2013-05-17 | |
US61/824,683 | 2013-05-17 | ||
NZ713999A NZ713999B2 (en) | 2013-05-17 | 2014-05-16 | Bipyrazole derivatives as jak inhibitors |
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NZ753636A NZ753636A (en) | 2020-11-27 |
NZ753636B2 true NZ753636B2 (en) | 2021-03-02 |
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