WO2012017058A1 - Improved recombinant human follicle-stimulating hormone - Google Patents
Improved recombinant human follicle-stimulating hormone Download PDFInfo
- Publication number
- WO2012017058A1 WO2012017058A1 PCT/EP2011/063492 EP2011063492W WO2012017058A1 WO 2012017058 A1 WO2012017058 A1 WO 2012017058A1 EP 2011063492 W EP2011063492 W EP 2011063492W WO 2012017058 A1 WO2012017058 A1 WO 2012017058A1
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- WIPO (PCT)
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- fsh
- relative amount
- recombinant
- preparation
- recombinant fsh
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Classifications
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K38/00—Medicinal preparations containing peptides
- A61K38/16—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof
- A61K38/17—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from animals; from humans
- A61K38/22—Hormones
- A61K38/24—Follicle-stimulating hormone [FSH]; Chorionic gonadotropins, e.g. HCG; Luteinising hormone [LH]; Thyroid-stimulating hormone [TSH]
-
- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K14/00—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof
- C07K14/435—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from animals; from humans
- C07K14/575—Hormones
- C07K14/59—Follicle-stimulating hormone [FSH]; Chorionic gonadotropins, e.g.hCG [human chorionic gonadotropin]; Luteinising hormone [LH]; Thyroid-stimulating hormone [TSH]
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61P—SPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
- A61P15/00—Drugs for genital or sexual disorders; Contraceptives
- A61P15/08—Drugs for genital or sexual disorders; Contraceptives for gonadal disorders or for enhancing fertility, e.g. inducers of ovulation or of spermatogenesis
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K38/00—Medicinal preparations containing peptides
Definitions
- the present invention pertains to the field of gonadotropins.
- improved recombinant human follicle-stimulating hormone rhFSH
- rhFSH human follicle-stimulating hormone
- Gonadotropins are a group of protein hormones which regulate gonadal function in the male and female and thereby play an important role in human fertility. They are secreted by gonadotrope cells of the pituitary gland of vertebrates after stimulation by the gonadotropin-reieasing hormone (Gn H). Gonadotropins are heterodimeric glycoproteins including follicle stimulating hormone (FSH), luteinizing hormone (LH) and chorionic gonadotropin (CG). The gonadotropins share identical alpha-subunits but comprise different beta-subunits which ensure receptor binding specificity.
- FSH follicle stimulating hormone
- LH luteinizing hormone
- CG chorionic gonadotropin
- FSH comprises a 92 amino acid aipha-subunit and a 1 1 1 amino acid beta-subunit which confers specific binding to the FSH receptor. Both subunits of the natural protein are modified by glycosylation. The aipha-subunit is naturally glycosylated at Asn52 and Asn78 and the beta-subunit at Asn7 and Asn24. Both subunits are produced in the ceils as precursor proteins and then processed and secreted. FSH regulates the development, growth, pubertal maturation, and reproductive processes of the body. In particular, it stimulates the maturation of germ cells and thus is involved in spermatogenesis and foliicuiogenesis.
- Fol!iculogenesis is induced by FSH, for example, by binding of FSH to FSH receptors on the surface of granulosa cells.
- FSH receptors are G protein-coupled receptors which activate the coupled G protein upon binding of FSH.
- the G protein in turn activates adenylyl cyclase, resulting in the production of cAMP, a second messenger molecule.
- the increasing cAMP concentration in the cell shall incorporate several downstream targets, in particular cAMP dependent protein kinases, which then lead to the synthesis of progesterone and estradiol.
- the progesterone and estradiol is secreted by the granulosa cells, inducing foliiculogenesis.
- inhibin-B Upon stimulation of the granulosa cells by FSH, they also release inhibin-B which forms a negative feedback loop, inhibiting the production and secretion of FSH in the pituitary gland. inhibin-B was shown to be a good surrogate marker for the ovarian stimulation by FSH.
- FSH is widely used in the treatment of infertility, either alone or in combination with other agents, in particular LH.
- FSH purified from post-menopausal human urine (urinary FSH) or FSH recombinantiy produced by Chinese hamster ovary (CHO) cells has been used for human treatment.
- urinary FSH post-menopausal human urine
- FSH recombinantiy produced by Chinese hamster ovary (CHO) cells has been used for human treatment.
- isoforms there is considerable heterogeneity associated with FSH preparations due to different isoforms present.
- Individual FSH isoforms exhibit identical amino acid sequences but differ in the extent and nature of their glycosylation.
- Particular isoforms are characterized by heterogeneity of the carbohydrate branch structures and differing amounts of sialic acid (a negatively charged terminal monosaccharide unit) incorporation, both of which influence the specific bioactivity of the isoform.
- sialic acid a negatively charged
- urinary FSH from different donors and different preparations can significantly vary in its carbohydrate structures, resulting in a high batch-to-batch variation. There are also safety concerns regarding the presence of viruses in the urinary products.
- FSH obtained from CHO cells exhibits a glycosylation pattern specific for these hamster ceils which is not identical to human glycosylation patterns. These differences result in varying biological activities and adverse effects of the obtained FSH and thus, of the pharmaceutical preparations which are to be administered to the patient.
- the present inventors have found that improved FSH preparations obtained from human cells which preferably have been selected for an optimized glycosyiation are able to induce the secretion of sex steroids such as estradiol and progesterone at lower concentrations than corresponding FSH preparations obtained from human urine or CHO cells. Therefore, the FSH preparations according to the present invention have surprising characteristics which are useful in therapy.
- the present invention provides, in a first aspect, a recombinant FSH preparation, wherein the recombinant FSH in the preparation has a glycosyiation pattern comprising one or more of the following characteristics:
- the present invention provides a recombinant FSH preparation obtainable by production in human cells or a human cell line, preferably in the cell line GT-5s (DSM ACC3078, deposited on July 28, 2010). It was found that FSH produced in a respective ceil line results in an improved glycosyiation profile as is described above and below.
- composition comprising the recombinant FSH according to the present invention.
- the present invention pertains to the recombinant FSH preparation or the pharmaceutical composition according to the present invention for use in infertility treatment.
- the present invention pertains to the recombinant FSH preparation or the pharmaceutical composition according to the present invention for inducing and/or stimulating the secretion of sex steroids also independent of cAMP.
- the present invention pertains to the recombinant FSH preparation or the pharmaceutical composition according to the present invention for stimulating or co- stimulating germ cell maturation by a biological process which is independent of cAMP signaling.
- the present invention pertains to the recombinant FSH preparation or the pharmaceutical composition according to the present invention for inducing and/or stimulating the secretion of sex steroids at FSH concentrations at which no significant cAMP release is induced.
- FSH refers to follicle-stimulating hormone, a gonadotropin, FSH is a glycoprotein comprised of two subunits, labeled alpha and beta subunits.
- the FSH is human FSH, in particular human FSH composed of an alpha subunit having the amino acid sequence of SEQ ID NO: 1 and an beta subunit having the amino acid sequence of SEQ ID NO: 2.
- one or more, such as 1 , 1 or 2, up to 3, up to 5, up to 10 or up to 20, amino acid substitution, addition and/or deletions may be present in one or both subunits.
- the amino acid sequence of the alpha subunit shares an overall homology or identity of at least 80%, more preferably at least 85%, at least 90%, at least 95% or at least 98% with the amino acid sequence according to SEQ ID NO: 1.
- the amino acid sequence of the beta subunit preferably shares an overall homology or identity of at least 80%, more preferably at least 85%, at least 90%, at least 95% or at least 98% with the amino acid sequence according to SEQ ID NO: 2.
- the subunits of the FSH are preferably two separate polypeptide chains, however, the term "FSH” as used herein also encompasses embodiments wherein the two subunits are covalentiy attached to each other, e.g. by cross-linking agents or a linking polypeptide chain, and embodiments, wherein one or both subunits are further divided into several polypeptide chains.
- the FSH according to the invention is capable of binding to and/or activating the FSH receptor, preferably the human FSH receptor.
- the term "FSH” as used herein in particular refers to all FSH proteins in a preparation.
- the term “FSH” in particular refers to the entirety of ail FSH proteins in a FSH preparation or composition.
- both subunits of the FSH protein comprise one or more carbohydrate structures attached to the polypeptide chain. More preferably, the carbohydrate structures are attached to asparagine residues of the subunits.
- the alpha subunit comprises two carbohydrate structures attached to Asn52 and Asn78 and/or the beta-subunit comprises two carbohydrate structures attached to Asn7 and Asn24.
- the amino acid residues carrying the carbohydrate structures are designated with respect to the human amino acid sequences of the alpha and beta subunits according to SEQ ID NOs: 1 and 2, respectively.
- the sugar part of human FSH is preferably composed of fucose, galactose, mannose, galactosamine, glucosamine, and/or sialic acid.
- FSH as used according to the present invention preferably is recombinant FSH, more preferably recombinant human FSH.
- recombinant FSH refers to FSH which is not naturally produced by a living human or animal body and then obtained from a sample derived therefrom, such as urine, blood or other body liquid, feces or tissue of the human or animal body.
- recombinant FSH is obtained from cells which have been biotechnologically engineered, in particular cells which have been transformed or transfected with a nucleic acid encoding FSH or the alpha or beta subunits of FSH.
- recombinant FSH is obtained from human cells comprising an exogenous nucleic acid encoding FSH.
- Respective exogenous nucleic acids can be introduced e.g. by using one or more expression vectors, which can be introduced into the host ceil e.g. via transfection.
- Respective methods for recombinantly producing proteins and FSH are well known in the prior art and thus, need no further description.
- the FSH according to the invention preferably is FSH, more preferably human FSH, obtainable by production in a human cell, preferably a human ceil line.
- the human ceil line preferably is derived from human blood ceils, in particular it is a myeloid ceil line, preferably a myeloid leukemia cell line.
- the cell line preferably is immortalized.
- the cell line for the production of the FSH according to the invention is the cell line GT-5s, deposited on July 28, 2010 under the accession number DS ACC3078 according to the requirements of the Budapest Treaty at the Deutsche Sammlung von Mikroorganismen und Zellkulturen (DS Z), ⁇ 7B, 38124 Braunschweig (DE) by the Glycotope GmbH, Robert-Rossle-Str, 10, 13125 Berlin (DE), or a cell line derived therefrom, or a homologous cell line.
- GT-5s is an immortalized human myeloid leukemia ceil line which is capable of providing a specific glycosyiation pattern as described herein.
- GT-5s and “GT-5s cell line” also include cells or cell lines derived from GT-5s.
- a cell line which is derived from GT-5s can be for example obtained by randomly or specifically selecting a single clone or a group of ceils from a GT-5s culture, optionally after treating the GT-5s cells in order to enhance their mutation rate, or by genetically altering a GT-5s cell line. The selected clone or group of cells may further be treated as described above and/or further rounds of selection may be performed.
- a cell line which is homologous to GT-5s in particular is an immortalized human myeloid cell line.
- a ceil line derived from or homologous to GT-5s is capable of providing FSH having a glycosyiation pattern similar to that obtained from GT-5s.
- FSH that is produced by a cell line derived from or homologous to GT-5s has one or more of the glycosyiation characteristics as described herein, in particular a relative amount of glycans carrying bisecting N-acetylglucosamine (bisGlcNAc) of at least 20 %; and/or a relative amount of glycans carrying fucose of at least 30%; and/or a relative amount of 2,6-coupied sialic acid of at least 30%; and/or a diverse glycosyiation pattern.
- bisGlcNAc bisecting N-acetylglucosamine
- the cell line derived from or homologous to GT-5s is capable of expressing FSH having a glycosyiation pattern as is described as preferred herein, in particular a glycosyiation pattern selected from Table 1.
- the similar glycosyiation pattern of FSH that is produced by the cell line derived from or homologous to GT-5s preferably differs from the glycosyiation pattern of FSH obtained from GT-5s by 20% or less, more preferably 15% or less, 10% or less or 5% or less, in particular in one or more, preferably all of the glycosyiation properties selected from the group consisting of the relative amount of bisGlcNAc, the relative amount of sialylated glycans, the relative amount of sulfated glycans, the relative amount of 2,6-coupled sialic acids, the relative amount of fucose, the relative amount of tetraantennary glycans, the relative amount of glycan branches carrying galactose, and the Z number.
- the FSH according to the invention preferably is FSH, more preferably human FSH, having one or more specific glycosyiation characteristics as disclosed herein, preferably a glycosyiation pattern selected from Table 1 .
- the ceil line GT-5s as well as cell lines derived therefrom and cell lines homologous thereto are in particular advantageous since they provide a very stable and homogeneous protein production, in particular with respect to FSH protein. They have a very good batch-to- batch consistency, i.e. the produced proteins and their glycosyiation pattern are similar when obtained from different production runs or when produced at different scales and/or with different culturing procedures.
- the diverse glycosyiation pattern as described herein is highly reproducible in different production runs using these cell lines for expressing FSH.
- the FSH according to the present invention is glycosylated, i.e. it is modified by one or more, preferably four, oligosaccharides attached to the polypeptides chains.
- oligosaccharides also named glycans or carbohydrates, may be linear or branched saccharide chains and preferably are complex-type N-linked oligosaccharide chains. Depending on the number of branches the oligosaccharide is termed mono-, bi-, tri- or tetraantennary (or even pentaantennary).
- a monoantennary oligosaccharide is unbranched while a bi-, tri- or tetraantennary oligosaccharide has one, two or three branches, respectively.
- a glycoprotein with a higher antennarity thus has more oligosaccharide endpoints and can carry more functional terminal saccharide units such as, for example, sialic acids.
- At least triantennary refers to oligosaccharides having an antennarity of at least 3, including triantennary, tetraantennary and pentaantennary oligosaccharides.
- At least tetraantennary refers to oligosaccharides having an antennarity of at least 4, including tetraantennary and pentaantennary oligosaccharides.
- a bisecting GlcNAc residue preferably is not considered as a branch or antenna and thus, does not add to the antennarity of the FSH.
- the glycosyiation pattern of FSH as referred to herein in particular refers to the overall glycosyiation pattern of all FSH proteins in a FSH preparation according to the present invention.
- any glycan structures comprised in the FSH protein and thus, attached to the FSH polypeptide chains in the FSH preparation are considered and reflected in the glycosyiation pattern.
- sialic acid in particular refers to any N- or O-substituted derivatives of neuraminic acid. It may refer to both 5-N-acetylneuraminic acid and 5-N- glycolyineuraminic acid, but preferably only refers to 5-N-acetyineuraminic acid.
- the sialic acid, in particular the 5-N-acetylneuraminic acid preferably is attached to a carbohydrate chain via a 2,3- or 2,6-iinkage.
- both 2,3- as well as 2,6-coupled sialic acids are present.
- the degree of sialylation of FSH is normally expressed as Z-number,
- the Z-number indicates the relative negative charge of the glycan structures of a glycoprotein.
- the Z- number is calculated by the formula:
- A1 % is the percentage of glycans with a charge of -1
- A2% is the percentage of glycans with a charge of -2
- A3% is the percentage of glycans with a charge of -3
- A4% is the percentage of glycans with a charge of -4.
- the charge of the glycans may be provided by any charged monosaccharide units or substituents comprised in the glycan, in particular by sialic acid residues and/or sulfate groups and/or phosphate groups. Since the charge of the glycans of FSH is generally only determined by their sialic acid residues and FSH generally has four glycan structures, the Z-number is an indication for the amount of sialic acids on the FSH or the acidify of the FSH. However, when the FSH also comprises a significant amount of sulfated glycans, the Z-number is an indication for the combined amounts of sialic acids and sulfate groups.
- a “relative amount of glycans” refers to a specific percentage or percentage range of the glycans attached to the FSH glycoproteins of a FSH preparation or in a composition comprising FSH, respectively.
- the relative amount of glycans refers to a specific percentage or percentage range of all glycans comprised in the FSH proteins and thus, attached to the FSH polypeptide chains in a FSH preparation or in a composition comprising FSH.
- 100 % of the glycans refers to ail glycans attached to the FSH glycoproteins of the FSH preparation or in a composition comprising FSH, respectively.
- a relative amount of glycans carrying bisecting GicNAc of 60% refers to a FSH preparation wherein 60% of ail glycans comprised in the FSH proteins and thus, attached to the FSH polypeptide chains in said FSH preparation comprise a bisecting GicNAc residue while 40% of ail glycans comprised in the FSH proteins and thus, attached to the FSH polypeptide chains in said FSH preparation do not comprise a bisecting GicNAc residue.
- a "FSH preparation” may be any composition or substance comprising or consisting of FSH. St may be in solid or fluid form and may comprise further ingredients in addition to FSH. in particular, a FSH preparation may be a solution comprising FSH and a suitable solvent such as water and/or alcohol, or a powder obtained, for example, after iyophiiization of a solution containing FSH.
- Suitable examples of a FSH preparation are composition obtained after expression of FSH in ceils, in particular after purification of the FSH, or pharmaceutical compositions comprising FSH.
- a FSH preparation may contain, in addition to FSH, for example solvents, diluents, excipients, stabilizers, preservatives, salts, adjuvants and/or surfactants.
- FSH preparation is used herein in particular in the meaning of a "composition comprising FSH”. These terms are preferably used synonymously herein.
- a “relative amount of 2,6-coupled sialic acid” refers to a specific percentage or percentage range of the total amount of sialic acids being 2,8-coupled sialic acids. A relative amount of 2,6-coupled sialic acid of 100% thus means that all sialic acids are 2,6-coupled sialic acids.
- a relative amount of 2,6-coupled sialic acids of 60% refers to a FSH preparation wherein 60% of ail sialic acids comprised in the FSH proteins and thus, attached to the oligosaccharide chains of the FSH proteins in said FSH preparation are attached via a 2,6-linkage while 40% of all sialic acids comprised in the FSH proteins and thus, attached to the oligosaccharide chains of the FSH proteins in said FSH preparation are not attached via a 2,6-linkage, but for example via a 2,3-linkage or a 2,8-linkage.
- the term "diverse glycosylation pattern" in particular refers to the glycosylation pattern of the FSH proteins in a preparation or composition which glycosylation pattern comprises multiple different glycan structures.
- Different glycan structures are oligosaccharide structures which differ in the presence/absence, amount and/or position of at least one monosaccharide unit and/or at least one chemical modification such as e.g. sulfate residues, acetyl residues or the like.
- a specific "different glycan structure" preferably is only considered in this respect if its relative amount is at least 0.02 %, more preferably at least 0.03 %, at least 0.05 %, at least 0.07 %, at least 0.1 %, at least 0.15 %, at least 0.2 %, at least 0.25 %, at least 0.3 % or at least 0.5 % of the total amount of glycan structures in the glycosylation pattern.
- a diverse glycosylation pattern in particular is a glycosylation pattern which comprises at least 5 different glycan structures.
- the diverse glycosylation pattern comprises at least 7, more preferably at least 10, at least 15, at least 20, at least 25, at least 30, at least 35, at least 40, at least 45, at least 50, at least 55 and most preferably at least 60 different glycan structures.
- a diverse glycosylation pattern in particular also refers to a glycosylation pattern of FSH in a preparation or composition which glycosylation pattern comprises more different glycan structures than FSH obtained from CHO cells in a respective preparation or composition, in particular, the glycosylation pattern comprises at least 10 %, preferably at least 20 %, at least 30 %, at least 40 %, at least 50 %, at least 80 %, at least 70 %, at least 80%, at least 90 %, and most preferably at least 100 % more different glycan structures than FSH obtained from CHO cells.
- nucleic acid includes single-stranded and double-stranded nucleic acids and ribonucleic acids as well as deoxyribonucleic acids. It may comprise naturally occurring as well as synthetic nucleotides and can be naturally or synthetically modified, for example by mefhylation, 5'- and/or 3'-capping.
- vector is used herein in its most general meaning and comprises any intermediary vehicle for a nucleic acid which enables said nucleic acid, for example, to be introduced into prokaryotic and/or eukaryotic host ceils and, where appropriate, to be integrated into a genome of the host ceil.
- Vectors of this kind are preferably replicated and/or expressed in the host cells.
- a vector preferably comprises one or more selection markers for selecting host ceils comprising the vector. Suitable selection markers are resistance genes which provide the host ceil with a resistance e.g. against a specific antibiotic. Further suitable selection markers are, for example, genes for enzymes such as DHFR or GS.
- Vectors enabling the expression of recombinant proteins including FSH as well as suitable expression cassettes and expression elements which enable the expression of a recombinant protein with high yield in a host cell are well known in the prior art and are also commercially available, and thus, need no detailed description here.
- cell and “cells” and “cell line” used interchangeably, preferably refer to one or more mammalian ceils, in particular human cells.
- the term includes progeny of a ceil or cell population.
- cells include progeny of a single cell, and the progeny can not necessarily be completely identical (in morphology or of total DNA complement) to the original parent ceil due to natural, accidental, or deliberate mutation and/or change.
- Cell preferably refers to isolated cells and/or cultivated cells which are not incorporated in a living human or animal body.
- patient means according to the invention a human being, a nonhuman primate or another animal, in particular a mammal such as a cow, horse, pig, sheep, goat, dog, cat or a rodent such as a mouse and rat.
- the patient is a human being.
- the FSH preferably is human FSH.
- the patient may be male or female, and preferably is female.
- a pharmaceutical composition refers to a composition suitable for administering to a human or animal, i.e., a composition containing components which are pharmaceutically acceptable.
- a pharmaceutical composition comprises an active compound or a salt or prodrug thereof together with a carrier, diluent or pharmaceutical excipient such as buffer, preservative and tonicity modifier.
- the international units (IU) for FSH refer to the fourth International Standard for Human Urinary FSH and LH (Starring, P.L. & Gaines Das, R.E. (2001 ) Journal of Endocrinology 171 , 1 19-129 ⁇ and are determined according to the augmented ovarian weight gain method (Steeiman, S.L. & Pohiey, F.M, (1953) Endocrinology 53, 604- 616).
- infertility treatment means the treatment of a dysfunction or disease related to the reproduction or fertility of a human or animal subject, in particular, infertility treatment includes assisted reproductive technologies, ovulation induction, in-vitro fertilization, intrauterine insemination, as well as the enablement or improvement of germ cell maturation such as folliculogenesis and spermatogenesis.
- a "release of a significant amount of cAMP" or a "significant release of cAMP” is any release of cAMP above the cAMP release in the absence of FSH, in particular any detectable release of cAMP above the inaccuracy of measurement.
- a standard procedure for measuring cAMP release is described in the examples and may be used for determining a significant or non-significant release of cAMP.
- the "release of cAMP” refers to an intracellular release of cAMP and/or an extracellular release or secretion of cAMP, preferably only to a secretion of cAMP.
- cAMP refers to cyclic adenosine monophosphate which acts as a second messenger molecule in cellular signal transduction.
- cAMP is synthesized in cells from ATP by the adenyiyl cyclase.
- a biological process or signal transduction pathway which is "independent of cAMP signaling" preferably does not involve activation of adenyiyl cyclase.
- the term “sex steroid” includes androgens such as anabolic steroids, androstenedione, dehydroepiandrosterone, dihydrotestosterone and testosterone; estrogens such as estradiol, estriol and estrone; and progesterone.
- sex steroids refer to naturally occurring sex steroids, more preferably to natural human sex steroids.
- Preferred sex steroids according to the invention are estradiol and progesterone, in particular progesterone.
- the present invention is according to one aspect based on the finding that an improved recombinant FSH preparation having an optimal glycosylation pattern is capable of inducing secretion of sex steroids such as progesterone at low FSH concentrations at which no significant cAMP release is induced.
- the improved FSH according to the present invention induces sex steroid secretion at much lower concentrations than the commonly used urinary FSH or recombinant FSH obtained from CHO cells.
- the improved FSH can be administered at much lower doses which reduces the risk of adverse effects and furthermore lowers the production costs.
- the improved FSH provides a longer activity in the patient's body compared to the commonly used FSH, since also a long time after administration when only a very low concentration of the FSH remains in the circulation, the FSH according to this embodiment of the present invention still exerts its biological activity and preferably, stimulates or co-stimulates germ cell maturation and/or the release of sex steroids. Moreover, at high concentrations, the improved FSH according to the present invention and the commonly used urinary or CHO-derived FSH show comparable effects. Therefore, there is no additional risk of overdosing compared to the commonly used FSH.
- the present inventors have demonstrated in cynomoigus monkeys that the improved FSH according to the present invention has a similar or even higher pharmacological effect when compared to the commonly used urinary or CHO-derived FSH.
- the FSH according to the present invention shows in rats and monkeys a lower maximum serum concentration (Cmax) and circulation half-life than the common FSH preparations obtained from urine or CHO ceils. Since in spite of the lower bioavailability the improved FSH has a similar or higher pharmacological effect, it can be concluded that the improved FSH according to the present invention has a higher specific therapeutic activity than the urinary or CHO- derived FSH.
- the improved FSH according to the present invention has a significantly higher Cmax than the common FSH preparations; however, the circulation half-life is slightly lower but comparable for the improved FSH.
- the improved FSH preparations according to the present invention showed therapeutic effects in humans, in particular follicular growth, even after administration of only a single dose. In contrast, no effects can be observed after single dose administration of the commonly used FSH preparations. Therefore, it is expected that with the improved FSH a much more precise treatment of the patients is possible. In particular, it is possible to use exactly timed and sized doses to treat and especially improve fertility of the patient and potentially a lengthy continuous treatment is not necessary. Thereby, also the risk of multiple pregnancies is reduced.
- the improved FSH preparations according to the present invention are more effective. Therefore, smaller doses can be administered to the patient, which causes less adverse effects, is more convenient for the patient and is less cost intensive. Furthermore, a more specific and detailed dosage regimen is possible with the improved FSH. Furthermore, the reduced half-life reduces unwanted side effects and furthermore provides a faster removal of the FSH from the human body after termination of the therapy.
- the present inventors assume that the higher specific therapeutic activity of the FSH preparations according to the present invention is based on the improved glycosyiation pattern.
- the high amount of bisecting GlcNAc residues and/or the high amount of 2,6-coupled sialic acids as well as the high amount of sulfated glycans may be responsible for the high activity.
- the FSH preparations according to the present invention also show a much more diverse and complex glycosyiation pattern, meaning that more different glycan structures are present in the preparation compared to conventional FSH preparations obtained e.g. from CHO ceils.
- the CHO-derived FSH is only able to activate one single pathway in the target cells while the improved FSH according to the present invention, due to its unique glycosyiation pattern, apparently exerts its biological activity via multiple different pathways, resulting in an increased biological response. As shown by the experimental data herein, some of these pathways involve cAMP signaling while other, novel pathways are cAMP independent.
- the present invention provides, in a first aspect, a FSH preparation, wherein the FSH in the preparation has a glycosyiation pattern comprising one or more of the following characteristics:
- the present invention provides a FSH preparation, wherein the FSH in the preparation has a glycosyiation pattern comprising one or more of the following characteristics: (i) a relative amount of glycans carrying bisecting N-acetylgiucosamine (bisGlcNAc) of at least 35 %;
- said FSH is a recombinant FSH and thus, is obtained by recombinant production in a host cell, which preferably is a human host cell.
- a host cell which preferably is a human host cell.
- Suitable human host cells which provide a respective glycosylation pattern are described subsequently.
- the glycosylation pattern comprises at least two of the features (i), (ii) and (iii) (in particular features (i) and (ii), (i) and (iii), or (ii) and (iii)), and more preferably ail of the features (i), (ii) and (iii).
- the glycosylation pattern may further comprise a relative amount of at least tetraantennary glycans of at least 15%, and/or a relative amount of glycans carrying one or more sialic acid residues of at least 80%, and/or a relative amount of glycans carrying galactose of at least 95%, and/or a relative amount of glycan branches carrying a terminal galactose unit of at least 60%, and/or a relative amount of glycans carrying a sulfate group of at least 1 %, preferably at least 2.5%.
- the terminal galactose unit may optionally further carry a sialic acid residue.
- the recombinant FSH in the composition preferably has a Z-number of at least 200.
- the relative amount of glycans carrying bisGlcNAc is preferably at least 25%, at least 27%, at least 30%, at least 35%, at least 38% or at least 40%. More preferably, it is in the range of from about 25% to about 60%, in particular in the range of from about 35% to about 60% or in the range of from about 38% to about 50% or in the range of from about 40% to about 45%. According to one embodiment, it is about 42%.
- the relative amount of glycans carrying one or more sialic acid residues is preferably at least 83%, at least 85% or at least 88%, and more preferably in the range of from about 85% to about 98% or in the range of from about 88% to about 95%, most preferably about 90%.
- the Z-number is preferably at least 210, more preferably at least 215, at least 220, at least 230 or at least 240.
- a higher Z-number is for example obtainable by enriching the FSH preparation for acidic and/or negatively charged FSH proteins.
- the relative amount of at least tetraantennary glycans is at least 16%, at least 17%, at least 18% or at least 19%, more preferably at least 20% or at least 21 %.
- the relative amount of at least triantennary glycans preferably is at least 25%, at least 30%, at least 35% or at least 40%, more preferably at least 45%, at least 50% or at least 55%.
- the relative amount of glycans carrying fucose is at least 35%, at least 40%, at least 50%, at least 60% or at least 70%, more preferably at least 75% or at least 78%. It may be in the range of from about 70% to about 90%, in particular in the range of from about 75% to about 85%.
- the relative amount of 2,6-coupled sialic acid is at least 40%, at least 45%, at least 50%, at least 53%, at least 55%, at least 60% or at least 65%, in particular in the range of about 40 % to about 99%, preferably about 40% to about 80%, about 50% to about 60% or about 53 % to about 70 %,
- the ratio of 2,3-coupied sialic acid to 2,6-coupled sialic acid is in the range of from about 1 :10 to about 7:3, more preferably from about 1 :5 to about 3:2 or from about 1 :2 to about 1 :1 , most preferably from about 2:3 to about 1 :1 .
- the relative amount of 2,6- coupied sialic acids exceeds that of 2,3-coupled sialic acids.
- the relative amount of glycans carrying galactose preferably is at least 97% and most preferably is about 98%.
- the relative amount of glycan branches carrying a galactose unit optionally modified by a sialic acid residue is at least 65%, more preferably at least 70% or at least 73%. it is preferably in the range of from about 60% to about 95%, and more preferably in the range of from about 70% to about 80%.
- the relative amount of glycans carrying a sulfate group is at least 1 %, at least 1 .5%, at least 2%, at least 2.5%, at least 3% or at least 5%, more preferably at least 7%, at least 10% or at least 12%.
- the relative amount of glycans carrying a sulfate group does not exceed 50%, preferably 40%, 35%, 30%, 25% or 20%.
- the FSH in the preparation has a diverse glycosylation pattern wherein the FSH in the preparation comprises at least 45 or preferably at least 50 different glycan structures, wherein each one of the different glycan structures has a relative amount of at least 0.05 % of the total amount of glycan structures of the FSH in the preparation.
- the FSH in the preparation comprises at least 35 or preferably at least 40 different glycan structures, wherein each one of the different glycan structures has a relative amount of at least 0.1 % of the total amount of glycan structures of the FSH in the preparation; and/or the FSH in the preparation comprises at least 20 or preferably at least 25 different glycan structures, wherein each one of the different glycan structures has a relative amount of at least 0.5 % of the total amount of glycan structures of the FSH in the preparation, in a further embodiment, the FSH in the preparation comprises at least 40 %, preferably at least 50 % more different glycan structures than FSH obtained from CHO cells in a corresponding preparation, wherein each one of the different glycan structures has a relative amount of at least 0.05 %, 0.1 % or 0.5% of the total amount of glycan structures of the FSH in the respective preparation.
- the recombinant FSH preparation according to the invention does not comprise N-glycoiyl neuraminic acids (NeuGc) or detectable amounts of NeuGc. Furthermore, the recombinant FSH preparation according to the invention preferably also does not comprise Galili epitopes (Galal ,3-Gal structures) or detectable amounts of the Galili epitope.
- the present invention in particular provides a FSH with a human giycosyiation pattern.
- foreign immunogenic non-human structures which induce side effects are absent which means that unwanted side effects or disadvantages known to be caused by certain foreign sugar structures such as the immunogenic non-human sialic acids (NeuGc) or the Galili epitope (Gal-Gal structures), both known for rodent production systems, or other structures like immunogenic high-mannose structures as known from e.g. yeast systems are avoided.
- certain foreign sugar structures such as the immunogenic non-human sialic acids (NeuGc) or the Galili epitope (Gal-Gal structures), both known for rodent production systems, or other structures like immunogenic high-mannose structures as known from e.g. yeast systems are avoided.
- the giycosyiation pattern of the recombinant FSH in the preparation according to the present invention comprises one or more, preferably all of the following characteristics:
- the recombinant FSH preparation according to the invention has one of the giycosyiation patterns listed in the following Table 1 :
- Embodiment B sulfate S>0 2 tetra
- B bisecting GicNAc; 2,6-S: 2,6-coup!ed sialic acid; sulfate: sulfated glycans; S>0: at least one sialic acid; Z: Z number; tetra: at least tetraantennary glycans
- the relative amount of bisecting GicNAc is at least 25% instead of at least 20%; and/or the relative amount of 2,6- coupled sialic acids preferably is at least 55%, more preferably at least 60%, instead of at least 53%; and/or the relative amount of sulfated glycans preferably is at least 3%, more preferably at least 10%, instead of at least 2.5%.
- the glycosylation patterns listed in table 1 preferably are human glycosylation patterns and/or do not comprise NeuGc and the Galili epitope.
- the present invention provides a recombinant FSH preparation that is obtainable by production in a human host cell or a human cell line.
- the recombinant FSH is obtainable from a human myeloid cell line, preferably an immortalized human myeloid leukemia ceil line, in particular the ceil line GT-5s or a ceil line derived therefrom or a cell line homologous to GT-5s. it was found that an FSH produced in said cell line exhibits a glycosylation pattern as described above and in particular exhibits the advantageous therapeutic and pharmacological effects described herein.
- the present invention also pertains to a method for producing a recombinant FSH preparation by recombinantly expressing the FSH in a suitable ceil line, in particular a cell line as described above, preferably the cell line GT-5s, a ceil line derived from GT-5s or a cell line homologous to GT-5s.
- a suitable ceil line in particular a cell line as described above, preferably the cell line GT-5s, a ceil line derived from GT-5s or a cell line homologous to GT-5s.
- the recombinant FSH respectively produced can be isolated and optionally purified.
- the recombinant FSH preparation preferably is obtainable by a process comprising the steps of:
- the human host cells used for expression preferably are myeloid cells, in particular immortalized myeloid leukemia ceils, and preferably are or are derived from the cell line GT-5s or is a cell line homologous thereto.
- the human host ceils are cultured so that they express FSH. Suitable culture conditions are known to the skilled person.
- the isolation of FSH preferably comprises the further steps of:
- the nucleic acid coding for the FSH alpha subunit and the nucleic acid coding for the FSH beta subunit are comprised in expression cassettes comprised in a suitable expression vector that allows the expression in a human host cell.
- the nucleic acid coding for the FSH alpha subunit and the nucleic acid coding for the FSH beta subunit may be comprised in the same vector, but preferably are comprised in separate vectors. Furthermore, they may also be expressed from one expression cassette using appropriate elements such as an IRES element.
- the FSH is secreted by the human cells. In preferred embodiments, cultivation of the human ceils is performed in a fermenter and/or under serum-free conditions.
- the recombinant FSH preparation obtainable by production in human host cells or a human cell line preferably exhibits the features described herein with respect to the recombinant FSH preparation according to the present invention, in particular, its glycosylation pattern comprises one or more of the characteristics described above, preferably at least one glycosylation pattern as described in Table 1 and/or in claims 1 to 6.
- the recombinant FSH according to the present invention is recombinant human FSH (rhFSH), preferably obtainable by production in a human cell line, such as the cell line GT-5s, which comprises one or more nucleic acids encoding the human FSH subunits and elements for expressing said one or more nucleic acids in the host cell.
- rhFSH recombinant human FSH
- the alpha subunit of the rhFSH has the amino acid sequence according to SEQ ID NO: 1 or an amino acid sequence having a homology or preferably identity to SEQ ID NO: 1 over its entire length of at least 80 %, preferably at least 85%, at least 90%, at least 95% or at least 98%.
- the alpha subunit of the rhFSH comprises asparagine residues at positions 52 and 78 and is glycosylated at amino acids Asn52 and Asn78.
- the beta subunit of the rhFSH preferably has the amino acid sequence according to SEQ ID NO: 2 or an amino acid sequence having a homology or preferably identity to SEQ ID NO: 2 over its entire length of at least 80 %, preferably at least 85%, at least 90%, at least 95% or at least 98%.
- the beta subunit of the rhFSH comprises asparagine residues at positions 7 and 24 and is glycosylated at amino acids Asn7 and Asn24.
- the recombinant FSH preparation according to the present invention is capable of stimulating the release of progesterone in granulosa cells
- the recombinant FSH preparation according to the present invention is capable of stimulating or co-stimulating germ cell maturation by a biological process which is independent of cAMP signaling. It was surprisingly found in experiments that the glycosylation pattern described above results in a respective novel pharmacological profile of the recombinant FSH, which exhibits the pharmacological and therapeutic advantages described herein.
- the recombinant FSH preparation according to the present invention may have one or more of the subsequently described characteristics as can be determined in a granulose cell assay (as is e.g. described in Example 2).
- a granulose cell assay as is e.g. described in Example 2.
- the recombinant FSH having the above described glycosylation pattern and in particular the recombinant FSH obtainable by production in the cell line GT-5s exhibit the subsequently described characteristics which result in the pharmacological and therapeutic advantages described herein.
- the recombinant FSH preparation is according to one embodiment capable of stimulating the release of progesterone in granulose cells at concentrations which are below the minimum concentration needed for the induction of cAMP release by the granulose cells.
- the release of progesterone, estradiol and/or cAMP mentioned below refers to an in vitro release in about 1 * 10 4 to about 1 * 10° granulosa cells/ml, preferably in about 5 * 10 4 to about 1 * 10 5 granulosa ceils/ml, in particular under conditions as described in example 2, below.
- the recombinant FSH preparation according to the present invention is capable of releasing at least 100ng/ml, at least 150 ng/ml, at least 200ng/ml, preferably at least 250ng/ml, at least 300 ng/ml or at least 400 ng/ml progesterone at a concentration which does not induce a cAMP release or which induces a cAMP release of less than 20 pmol/ml, less than 15 pmol/ml, less than 10 pmol/ml, less than 5pmol/mi.
- the recombinant FSH preparation according to the present invention is preferably capable of releasing at least 100ng/mi, at least 200ng/ml, preferably at least 300ng/mi or at least 40Gng/mi progesterone at a FSH concentration that is lower than the concentration necessary with human urinary FSH or recombinant FSH produced in CHO ceils (Gonai F), Thus, it is preferably capable of releasing at least 100ng/mi, at least 2GGng/mi, preferably at least 300ng/ml or at least 400ng/ml progesterone at a concentration wherein human urinary FSH or recombinant FSH produced in CHO cells (Gonal F) do not result in a corresponding, respectively equally high release of progesterone. As is demonstrated by the examples, the recombinant FSH according to the present invention induces respectively stimulates the production of progesterone more strongly than human urinary FSH or recombinant FSH produced in CHO ceils (Gonal F)
- the recombinant FSH preparation according to the present invention is preferably capable of releasing at least 50 nmol/l, at least 75 nmol/l, at least 100 nmol/l, at least 125 nmoi/l or at least at least 150 nmoi/l estradiol at a FSH concentration which does not induce a cAMP release or which induces a cAMP release of less than 20 pmol/ml, less than 15 pmol/ml, less than 10 pmol/ml, less than 5pmol/ml.
- the recombinant FSH preparation according to the present invention is preferably capable of releasing at least 50 nmol/l, at least 75 nmoi/l, at least 100 nmol/l, at least 125 nmoi/l, at least 150 nmol/l, at least 200 nmoi/l, at least 250 nmoi/l, at least 300 nmol/l or at least 350 nmol/l estradiol at a FSH concentration that is lower than the concentration necessary with human urinary FSH or recombinant FSH produced in CHO ceils (Gonai F).
- the recombinant FSH preparations according to the present invention induce respectively stimulate the production of estradiol more strongly than human urinary FSH or recombinant FSH produced in CHO cells (Gonai F).
- the recombinant FSH preparation according to the present invention preferably is present in a pharmaceutical composition.
- another aspect of the present invention is a pharmaceutical composition comprising the recombinant FSH preparation according to the present invention for use in infertility treatment as defined herein.
- the pharmaceutical composition may include further pharmaceutically active agents, in particular further agents useful in infertility treatment such as other gonadotropins, in particular LH and/or CG, preferably recombinant and/or human LH or CG.
- the pharmaceutical composition comprising the recombinant FSH may be designed for use in combination with such further pharmaceutically active agents.
- the present invention provides the recombinant FSH preparation according to the present invention or the pharmaceutical composition according to the present invention for use in infertility treatment as well as a method for treatment of infertility comprising the administration of the recombinant FSH preparation according to the present invention or the pharmaceutical composition according to the present invention to the patient.
- the recombinant FSH preparation according to the present invention is capable of stimulating or co-stimulating the release of sex steroids such as progesterone, in particular the release of progesterone in granulosa cells, already at concentrations where no significant amount of cAMP is released
- the recombinant FSH according to the present invention may be capable of stimulating release of sex steroids such as progesterone in granulosa ceils at concentrations which are below the minimum concentration needed for the induction of cAMP release by the granulosa cells.
- the recombinant FSH preparation according to the present invention is capable of stimulating release of progesterone, in particular release of progesterone in granulosa cells, by inducing a signal transduction pathway which is independent of cAMP signaling.
- the infertility treatment includes the induction of a signal transduction pathway which is independent of cAMP signaling by the recombinant FSH according to the present invention, resulting in the stimulation of progesterone release.
- other signal transduction pathways including cAMP signaling may additionally be activated by the recombinant FSH .
- the infertility treatment does not involve the induction of a significant release of cAMP by the recombinant FSH according to the present invention.
- the recombinant FSH preparation according to the present invention is capable of stimulating or co-stimulating germ ceil maturation by a biological process which is independent of cAMP signaling.
- the present invention also pertains to the recombinant FSH preparation or the pharmaceutical composition described above for inducing and/or stimulating the secretion of sex steroids also independent of cAMP. Furthermore, the present invention also pertains to the recombinant FSH preparation or the pharmaceutical composition described above for stimulating or co-stimulating germ cell maturation by a biological process which is independent of cAMP signaling. Additionally, the present invention also pertains to the recombinant FSH preparation or the pharmaceutical composition described above for inducing and/or stimulating the secretion of sex steroids at FSH concentrations at which no significant cAMP release is induced.
- the present invention also pertains to the recombinant FSH preparation or the pharmaceutical composition described above for inducing sex steroid secretion at much lower concentrations than the commonly used urinary FSH or recombinant FSH obtained from CHO cells.
- the pharmacological and therapeutic advantages of the respective uses in particular for infertility treatment were discussed in detail above.
- the infertility treatment may include the stimulation or co-stimulation of germ cell maturation by a biological process which is independent of cAMP signaling.
- the infertility treatment may additionally comprise the stimulation of germ ceil maturation by one or more other biological processes which involve cAMP signaling, in other embodiments, the infertility treatment does not involve the stimulation of germ cell maturation by such other biological processes.
- the germ cell maturation preferably includes follicular growth and/or spermatogenesis.
- the biological process by which the FSH stimulates germ ceil maturation may include secretion of sex steroids, in particular progesterone, preferably by granulosa cells.
- the biological process which is independent of cAMP signaling refers to the secretion of sex steroids, in particular progesterone, preferably by granulosa cells, induced by a signal transduction pathway which does not involve cAMP as messenger molecule.
- the recombinant FSH preparation according to the invention is capable of eliciting a biological effect even after the administration of only a single dose.
- the FSH preparation according to the invention or the pharmaceutical composition according to the invention is capable of inducing follicular growth and/or ovular maturation in a patient, in particular a human patient, after administration of only a single dose of the FSH preparation or pharmaceutical composition.
- the biological effect achieved after the administration of only a single dose is higher, in particular the follicular growth and/or ovular maturation, is more pronounced and/or is achieved in a higher ratio of the treated patients compared to FSH preparations obtained from human urine and/or expressed in CHO ceils.
- Said single dose in particular comprises at least 10 lU FSH, preferably at least 15 iU FSH, at least 20 IU FSH or at least 25 !U FSH, and/or 1000 IU FSH or less, preferably 750 iU FSH or less, 500 IU FSH or less, 300 !U FSH or less, 200 IU FSH or less, 150 !U FSH or less, 100 !U FSH or less or 50 iU FSH or less.
- said single dose comprises about 10 IU to about 500 IU FSH, more preferably about 20 IU to about 300 IU FSH, for example about 25 !U FSH, about 75 IU FSH or about 100 IU FSH.
- the recombinant FSH preparation according to the invention has a lower circulation half-life than FSH preparations obtained from human urine and/or expressed in CHO ceils.
- it has a lower circulation half-life in one or more of humans, cynomolgus monkeys, rats and/or mice.
- the circulation half-life is at least 5% lower, more preferably at least 10%, at least 15% or at least 20% lower than that of FSH preparations obtained from human urine and/or expressed in CHO cells.
- the recombinant FSH preparation according to the invention has a lower bioavailability than FSH preparations obtained from human urine and/or expressed in CHO ceils, in particular, in one or more of humans, cynomolgus monkeys, rats and/or mice.
- the bioavailability is at least 5% lower, more preferably at least 10%, at least 15% or at least 20% lower than that of FSH preparations obtained from human urine and/or expressed in CHO ceils.
- Bioavailability in this respect preferably refers to the area under the curve (AUG) value obtained in pharmacokinetic studies wherein the serum FSH concentration is determined at different time points after administration of a defined amount of FSH.
- Circulation half- life and bioavailability preferably are determined after administration of the FSH by subcutaneous injection, in particular after single dose administration, wherein the single dose preferably comprises about 10 to about 1000 IU FSH, more preferably about 25 IU to about 500 IU FSH or about 50 IU to about 300 IU FSH, in particular about 100 IU FSH.
- the single dose preferably comprises about 10 to about 1000 IU FSH, more preferably about 25 IU to about 500 IU FSH or about 50 IU to about 300 IU FSH, in particular about 100 IU FSH.
- circulation half-life and bioavailability are determined as disclosed in Example 6, below.
- the recombinant FSH preparation according to the invention has a therapeutic efficacy which is similar to or even higher than that of FSH preparations obtained from human urine and/or expressed in CHO ceils, in particular, in one or more of humans, cynomolgus monkeys, rats and/or mice.
- therapeutic efficacy preferably refers to the ability to stimulate release of estradiol and/or inhibin-B when administered to a subject.
- the therapeutic efficacy preferably is determined by measuring the estradiol and/or inhibin-B concentration in the blood or serum of one or more subjects after administration of the FSH by subcutaneous injection, in particular after single dose administration, wherein the single dose preferably comprises about 10 to about 1000 IU FSH, preferably about 25 lU to about 500 IU FSH or about 50 !U to about 300 IU FSH, in particular about 100 IU FSH. in particular, the therapeutic efficacy is determined as disclosed in Example 5, below.
- Similar therapeutic efficacies in particular refer to stimulations of estradiol and/or inhibin-B release by the respective FSH preparations which result in estradiol and/or inhibin-B serum concentrations which differ from each other by no more than 25%, preferably no more than 20%, no more than 15% or no more than 10%.
- the FSH preparation obtained from human urine in particular is obtained from urine of post-menopause women.
- the FSH preparation expressed in CHO ceils is for example expressed in the CHO cell line CHOdhfr- [ATCC No. CRL-9096].
- the FSH preparation obtained from human urine and the FSH preparation expressed in CHO ceils preferably are commercially available and approved pharmaceutical preparations, in particular Bravelle and Gonal-f, respectively.
- the FSH preparations are analyzed by administering them to similar subject groups with the same dosage regimen using the same administration pathway and using similar or the same further conditions.
- the recombinant FSH preparation according to the present invention is administered to the patient in a dose which results in an FSH concentration in the circulation of the patient of less than 5 !U/L.
- the dose to be administered to the patient results in an FSH concentration in the circulation of the patient which is less than about 4 IU/L, in particular less than about 3 iU/L, less than about 2 IU/L, less than about 1 IU/L or less than about 0.5 IU/L.
- the concentration of the FSH in the patient's circulation for example is in the range of about 0.01 to about 5 IU/L, in particular about 0.05 to about 2 IU/L, about 0.1 to about 1.5 IU/L or about 0.2 to about 1 IU/L.
- the FSH is administered to the patient in a dose which does not induce a significant release of cAMP.
- the recombinant FSH preparations according to the invention in certain embodiments elicit a therapeutic effect at these concentrations.
- the recombinant FSH preparations according to the invention may also be administered in a dose which results in higher FSH concentrations in the patient's circulation.
- the infertility treatment includes assisted reproductive technologies, ovulation induction, in-vitro fertilization, for example in-vitro fertilization with intracytoplasmic sperm injection, gamete intrafallopian transfer, intrauterine insemination, treatment of anovulatory disorder in women, treatment of severe hormone deficiency disorder for egg maturation in woman, treatment of sperm production deficiencies in men, and/or the enablement or improvement of germ ceil maturation such as folliculogenesis and spermatogenesis, in particular follicle maturation in women, for example during in vitro fertilization stimulation protocols and/or for anovulatory disorder treatment.
- assisted reproductive technologies ovulation induction
- in-vitro fertilization for example in-vitro fertilization with intracytoplasmic sperm injection
- gamete intrafallopian transfer intrauterine insemination
- treatment of anovulatory disorder in women treatment of severe hormone deficiency disorder for egg maturation in woman
- treatment of sperm production deficiencies in men treatment of sper
- the recombinant FSH preparation according to the present invention is for parenteral administration to the patient.
- the recombinant FSH is to be administered by injection or infusion, for example intravenously, intramuscularly or subcutaneously.
- the recombinant FSH is present in a pharmaceutical composition. Suitable dosage regiments can be determined by the skilled artisan and can be derived from the general knowledge in the field.
- the pharmaceutical composition according to the invention may be in the form of a single unit dose or a multiple unit dose.
- the pharmaceutical composition is a sterile solution comprising the recombinant FSH according to the present invention, further comprising one or more ingredients selected from the group consisting of solvents such as water, buffer substances, stabilizers, preservatives, excipients, surfactants and salts.
- a single unit dose preferably comprises about 10 IU to about 750 IU FSH, more preferably about 25 IU to about 500 IU FSH, about 50 IU to about 400 IU FSH, or about 100 IU to about 300 IU FSH.
- a multiple unit dose comprises enough FSH to provide for multiple single doses, in particular at least 5, at least 10, at least 20 or at least 50 single doses.
- the pharmaceutical composition may for example be in the form of an injection pen.
- Figure 1 shows the cAMP release of isolated granulosa ceils stimulated with different concentrations of the improved recombinant human FSH (FSH (invention); preparation 1 : open squares, preparation 2: closed triangles) or FSH obtained from CHO cells (Gonal F; closed diamonds).
- FSH improved recombinant human FSH
- Figure 2 shows the estradiol synthesis of isolated granulosa cells stimulated with different concentrations of the improved recombinant human FSH (FSH (invention); preparation 1 : open squares, preparation 2: closed triangles) or FSH obtained from CHO cells (Gonal F; closed diamonds).
- FSH improved recombinant human FSH
- Figure 3 shows the progesterone synthesis of isolated granulosa cells stimulated with different concentrations of the improved recombinant human FSH (FSH (invention); preparation 1 : open squares, preparation 2: closed triangles) or FSH obtained from CHO cells (Gonal F; closed diamonds).
- FSH improved recombinant human FSH
- Figure 4 shows the cA P release of isolated granulosa cells stimulated with different concentrations of the improved recombinant human FSH (FSH (invention); open squares) or urinary FSH (Fostimon; closed diamonds).
- Figure 5 shows the estradiol synthesis of isolated granulosa cells stimulated with different concentrations of the improved recombinant human FSH (FSH (invention); open squares) or urinary FSH (Fostimon; closed diamonds).
- Figure 8 shows the progesterone synthesis of isolated granulosa cells stimulated with different concentrations of the improved recombinant human FSH (FSH (invention); open squares) or urinary FSH (Fostimon; closed diamonds).
- Figure 7 shows the results of the Steelman-Pohley assay using the improved recombinant human FSH in comparison to standard urinary FSH and standard recombinant FSH obtained from CHO ceils. The ovarian weight gain in immature female rats after daily administration for three days is plotted against the used FSH concentration.
- Figure 8 shows serum concentrations of estradiol (E2) and inhibin-B observed in cynomolgus monkeys after single (A) and repeated (B) s.c. injection of FSH (invention), the urinary FSH Braveile or the recombinant FSH Gonal-f expressed in CHO ceils. Each bar represents mean and standard deviation of 4 animals.
- Figure 9 shows serum concentrations of FSH in female cynomolgus monkeys after a single i.v. or s.c. injection. Each symbol represents the mean value of a group of 4 animals.
- Figure 10 shows schematic drawings of complex-type glycan structures which may be attached to the FSH glycosylation sites. Shown are (a) biantennary, (b) triantennary and (c) tetraantennary structures. One or more of the sialic acid and galactose residues may also be absent in these structures and the structures may further comprise, for example, a bisecting GlcNAc residue, a fucose residue and/or sulfate groups.
- Sia sialic acid
- Gal galactose, also referred to herein as terminal galactose
- GlcNAc N- acetylglucosamine
- Man mannose.
- Example 1 Preparation of FSH (invention)
- FSH is produced by cultivation of GT-5s cells stably transfected with two expression constructs harbouring the alpha and beta chain of human FSH (alpha chain accession number NT_0G7299.13; beta chain accession number NTJ309237.18).
- the piasmid for the expression of the FSH alpha chain is carrying the gene of a mutated version of the murine dihydrofolate reductase (dhfr) with higher resistance to the enzyme inhibitor methotrexate than the native form and the second piasmid for the expression of the FSH alpha chain is carrying the puromycin resistance gene.
- FSH is produced by fermentation of the final FSH producing GT-5s clone in batch, fed- batch or perfusion process under serum free conditions. The fermentation is usually run for 2-3 weeks.
- the supernatant is filtered through 2 m filters to eliminate cells and cell debris prior to a sterile filtration step using G.2pm filters.
- the purification process utilizes a reverse phase chromatography (RPC) as capture step followed by a concentration step and a subsequent size exclusion chromatography (SEC).
- RPC reverse phase chromatography
- SEC size exclusion chromatography
- AEC anion exchange chromatography
- FSH invention
- Gonal F Merck Serono SA
- Gonal F is FSH recombinantly produced in CHO cells.
- the results are shown in Figs. 1 to 3. While the second messenger cAMP is produced at comparable FSH concentrations of Gonal F and FSH (invention) products in comparable amounts, the steroids progesterone and estradiol are released at much lower FSH concentrations in the case of FSH (invention) products compared to FSH recombinantly produced in CHO cells (Gonal F).
- the activity of FSH was also determined by the Steelman-Pohiey assay.
- the assay was performed according to the pharmacopeia.
- the ovarian weight gain in immature female rats was measured after administration of three different FSH concentrations each given daily for three days.
- the potency is calculated using the parallel line evaluation. The results are shown in Fig. 7.
- the giycoprofiles of the different FSH preparations were determined by structural analysis of the giycosylation. Giycoprofiiing generates information on the complex glycan structure of the giycosylation sites.
- Giycoprofiiing generates information on the complex glycan structure of the giycosylation sites.
- the intact N-giycans are released from the protein core employing PNGase F. The digestion is performed in a gel or gel block for unambiguous workup. Free N-glycans are labeled with the fluorescence marker 2-aminobenzamide.
- the purified sample of N-glycans is separated by means of hydrophilic interaction chromatography (HiLJC) with fiuorometric detection. This analysis gave the following results:
- F fucose
- S sialic acid
- G galactose
- B bisecting N-acetylgalactosamine
- the ratio of 2,3-coupled and 2,6-coupled sialic acids in the glycans of the FSH was analyzed by comparing the amount of sialic acid released by sialidase A (cleaving off 2,3- and 2,6-coupled sialic acids) and sialidase S (cleaving off only 2,3- coupled sialic acids).
- the sialic acid residues are coupled to the glycans by 2,3- as well as 2,6-bonds in a ratio of about 1 : 1 , comprising even more 2,6-coupled sialic acids than 2,3-coupled sialic acids, while in the urinary FSH Bravelle (Ferring Pharmaceuticals Inc.) the ratio is about 3 : 1 in favor of 2,3-linked sialic acid. Due to their recombinant production in CHO cells, Puregon (Organon / EssexPharma) and Gonal F (Merck Serono) do not have any bisecting N-acetylgalactosamines and only comprises 2,3- coupled sialic acids.
- Bi bianiennary N-giycans
- Tri triantennary N-giycans
- Tetra tetraaniennary N-giycans 1 : literature vaiues (Gervals, A. ei al. (2003) Giycobio!ogy 13(3), 179-189)
- the FSH according to the present invention has a high degree of bisecting N-acetiygiucosamine, a high antennarity and a high degree of sialy!ation, in particular after enrichment of the acidic isoforms, and a high sulfation degree. It is assumed that because of one or more of these three glycosylation parameters, the FSH (invention) has a superior activity compared to the common recombinant or urinary FSH preparations.
- the FSH (invention) is also highly fucosyiated and has a ratio of 2,3- to 2,6-sialylation of about 1 : 1 or even a higher amount of 2,6-sialyiation.
- F fucose
- SO no sialic acid
- SI one sialic acid
- S2 two sialic acids
- S3 three sialic acids
- S4 four sialic acids
- S>0 at least one sialic acid
- GO no galactose
- G1 one galactose
- G2 two galactoses
- G3 three galactoses
- G4 four galactoses
- G>0 at least one galactose
- B bisecting GicNAc able 9: Antennarity of the glycosylation of the different FS Bi Tri Tetra
- Bi biantennary N-g!ycans
- Tri triantennary N-giycans
- Tetra tetraantennary N-giycans
- FSH pharmacological profile of FSH (invention) was investigated in different in vivo pharmacology and toxicology studies in female rats and monkeys and an in vivo bioassay.
- estradiol and inhibin-B were used as molecular markers. These markers are released by the ovaries upon stimulation with FSH. Estradiol is responsible for follicle growth and maturation while inhibin-B is part of the natural negative feedback mechanism. Furthermore, inhibin-B was shown previously to be a good surrogate marker for the ovarian stimulation by FSH.
- the pharmacological profile after single and repeated doses of FSH was evaluated in cynomolgus monkeys.
- the cynomolgus monkey is considered the most relevant animal model based on the close similarities to human.
- the study consisted of a single dose administration of FSH to sexually mature, female animals exhibiting a regular menstrual cycle. The animals were randomly allocated to the test groups based on the phase of their oestrus cycle. The test item administration to the animals started 1 to 3 days after initiation of menses.
- the monkeys received repeated FSH doses included 3 groups, each comprising of 4 animals which were treated by repeated daily s.c. bolus injections of 100 lU/kg b.w. FSH (invention), Braveile or Gonal-f for 7 consecutive days. Blood sampling was as described for the single dose study.
- a 4-week subchronic toxicity study with included analysis of pharmacodynamic parameters was performed in cynomolgus monkeys.
- 4 groups each comprising of 4 female, sexually mature cynomolgus monkeys were treated with FSH (invention) by repeated subcutaneous injections once daily for 28 days.
- the dose levels were 30, 100, and 300 lU/kg b.w./day for low, intermediate, and high dose groups, respectively.
- 2 female animals per group were scheduled for a 6- week recovery period for the control and for the high dose group.
- Blood samples for the analyses of estradiol and inhibin-B were withdrawn before and at the end of the treatment period (predose, day 1 and 28), 8 hours p. a. at day 17 and at the end of the recovery period (day 70).
- the aim of the study was to investigate the bioavailability and pharmacology of FSH (invention) compared with Braveile and Gonal-f by subcutaneous or intravenous administration to cynomolgus monkeys.
- the study was performed with sexually mature, female animals exhibiting a regular menstrual cycle. The animals were randomly allocated to the test groups based on the phase of their oestrus cycle. The test item administration to the animals started 1 to 3 days after initiation of menses.
- the study included 4 groups, each comprising 4 animals which were treated either by a single i.v. bolus injection of 100 lU/kg b.w. FSH (invention) or a single s.c.
- Table 1 1 Toxicokinetic parameters calculated after a single s.c. bolus injection of FSH to female cynomolgus monkeys.
- the repeated dose study in cynomoigus monkeys was performed similar to the single dose study.
- the study included 3 groups, each comprising of 4 animals which were treated by repeated daily s.c. bolus injections of 1 00 I U kg b.w. FSH (invention), Braveile or Gonai-f for 7 consecutive days.
- the dose was selected referring to pharmacokinetic and toxicoiogicai studies in monkeys which used doses of 1 0 - 1 000 lU/kg b.w. Gonai-f. None of the animals died prematurely during the course of the study or showed clinical signs of systemic toxicity. No test or reference item-related influence or local intolerance was noted.
- AUC 0 _ t last-values of 71 .6 ⁇ 25.4 %!D, 99.1 ⁇ 1 2.9 %ID and 79.7 ⁇ 9.7 %!D were observed for FSH (invention), Braveile and Gonal-f, respectively. Generally the clearance from the blood and the relative drug exposure is comparable for ail substances investigated; no statistically relevant differences were measured. Upon investigation of the biodistribution of the administered FSH , an accumulation of FSH in the ovaries and uterus was observed (besides a high accumulation in the kidneys due to their role in elimination of the FSH from the body).
- Example 7 Pharmacokinetics and pharmacodynamics in humans
- FSH invention
- Healthy female volunteers received 25 IU, 75 IU or 150 IU FSH (invention) in a single s.c. dose and the FSH concentration in the circulation was monitored. Additionally, also the number and size of the follicles were analyzed prior to and after the medication.
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CN201180037096.3A CN103068839B (en) | 2010-08-04 | 2011-08-04 | The Gonal-F improved |
AU2011287525A AU2011287525B2 (en) | 2010-08-04 | 2011-08-04 | Improved recombinant human follicle-stimulating hormone |
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SG2012093191A SG186755A1 (en) | 2010-08-04 | 2011-08-04 | Improved recombinant human follicle-stimulating hormone |
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CU2013000019A CU24043B1 (en) | 2010-08-04 | 2013-02-04 | RECOMBINANT HUMAN FOLICULATING HORMONE, PHARMACEUTICAL COMPOSITION THAT UNDERSTANDS |
HRP20160671TT HRP20160671T1 (en) | 2010-08-04 | 2016-06-13 | Improved recombinant human follicle-stimulating hormone |
CY20161100539T CY1117778T1 (en) | 2010-08-04 | 2016-06-16 | IMPROVED RECOMMENDED HUMAN OXYPHOLOGICAL HORMONY |
SM201600219T SMT201600219B (en) | 2010-08-04 | 2016-07-06 | IMPROVED HUMAN FOLLICLE-STIMULATING HUMAN HORMONE |
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WO2012168680A1 (en) | 2011-06-06 | 2012-12-13 | Ferring B.V. | Pharmaceutical preparation comprising recombinant fsh |
WO2013020996A1 (en) | 2011-08-08 | 2013-02-14 | Ferring Bv | Composition for controlled ovarian stimulation |
US8951967B2 (en) | 2008-04-16 | 2015-02-10 | Ferring International Center Sa | Recombinant FSH including alpha 2,3- and alpha 2,6-sailylation |
WO2015158875A1 (en) | 2014-04-18 | 2015-10-22 | Glycotope Gmbh | Controlled ovarian hyperstimulation with improved recombinant human follicle-stimulating hormone |
EP2601210B1 (en) | 2010-08-04 | 2016-05-11 | Glycotope GmbH | Improved recombinant human follicle-stimulating hormone |
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