OA17314A - Compositions comprising vortioxetine and donepezil. - Google Patents
Compositions comprising vortioxetine and donepezil. Download PDFInfo
- Publication number
- OA17314A OA17314A OA1201500209 OA17314A OA 17314 A OA17314 A OA 17314A OA 1201500209 OA1201500209 OA 1201500209 OA 17314 A OA17314 A OA 17314A
- Authority
- OA
- OAPI
- Prior art keywords
- vortioxetine
- dementia
- donepezil
- disease
- cognitive
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- YQNWZWMKLDQSAC-UHFFFAOYSA-N Vortioxetine Chemical compound CC1=CC(C)=CC=C1SC1=CC=CC=C1N1CCNCC1 YQNWZWMKLDQSAC-UHFFFAOYSA-N 0.000 title claims abstract description 131
- 229960002263 Vortioxetine Drugs 0.000 title claims abstract description 131
- ADEBPBSSDYVVLD-UHFFFAOYSA-N Donepezil Chemical compound O=C1C=2C=C(OC)C(OC)=CC=2CC1CC(CC1)CCN1CC1=CC=CC=C1 ADEBPBSSDYVVLD-UHFFFAOYSA-N 0.000 title claims abstract description 92
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Abstract
Pharmaceutical compositions comprising vortioxetine and donepezil are provided and the use of such composition for the treatment of cognitive dysfunctions.
Description
The présent invention relates to pharmaceutical compositions comprising vortioxetine and donepezil and to the use of vortioxetine together with donepezil in the treatment of cognitive dysfonction.
Background
International patent applications including WO 03/029232 and WO 2007/144005 disclose the compound l-[2-(2,4-dimethyl-phenylsuîfanyl)-phenyl]-piperazine and pharmaceutically acceptable salts thereof. WHO has since published that vortioxetine is the recommended International Non-proprietaryName (INN) for l-[2-(2,4-dimethyl-phenylsulfanyl)-phenyl]piperazine. Vortioxetine was formerly referred to in the literature as LU AA21004. In September 2013 FDA approved vortioxetine for the treatment of major dépressive disorder under the trade name Brintellîx™.
Vortioxetine is an antagonist on the 5-HT3,5-HT7 and 5-HTjd receptors, an agonist on the 5-HTia receptor and a partial agonist on the 5-HTib receptor and an inhibitor of the serotonîn transporter. Additionally, vortioxetine has demonstrated to enhance the levels of the neurotransmitters serotonîn, noradrenalin, dopamine, acétylcholine and histamine in spécifie areas of the brain. Ail of these activities are considered to be of clinical relevance and potentially involved in the mechanism of action of the compound [J.Med.Chem., 54,3206-3221,2011; Eur. Neuropshycopharmacol., 18(suppl 4), S321,2008; Eur. Neuropshycopharmacol., 21(suppl 4), S407-408,2011; Int. J. Psychiatry Clin Pract. 5,47,2012].
Vortioxetine has in clinical trials shown to be a safe and efficacious treatment for dépréssion. A paper reporting the results from a proof-of-concept study to evaluate the efficacy and tolerability of the compound in patients with major dépressive disorder (MDD) authored by Alvares et al was made available on-line by Int. J. Neuropsychopharm. 18 July 2011. The results from the six weeks, randomised, placebo-controlled study with approximately 100 patients in each arm show that vortioxetine séparâtes significantly from placebo in the treatment of dépressive and anxious symptoms in patients with MDD. It is also reported that no clinically relevant changes were seen in the clinical laboratory results, vital signs, weight, or ECG parameters. Results from a long-term study also show that vortioxetine is effective in preventing relapse in patients suffering from MDD [Eï/r. Neuropsychopharmaâol. 21(suppl 3), S396-397,
2011]. A study in elderly depressed patients reported in Int. Clin. Psychopharm., 27,215-227, 2012 shows that vortioxetine may be used to treat cognitive dysfonctions.
The International application published as WO 2009/062517 discloses that vortioxetine may be combined with other types of pharmaceutically active ingrédients, such as interferones, opiates, ACE inhibitors and acétylcholine esterase inhibitors.
The impact that serotonin levels and activation or inhibition of serotonin receptors may hâve on acétylcholine levels has been extensively reviewed - see Pharmacol Rev, 59,360-417, 2007. It emerges from this review that the influence of the serotonergic system on acétylcholine reiease is extremely complicated and far from understood.
Acétylcholine is a neurotransmitter that acts in the central as well as peripheral nervous System. A low level of acétylcholine has been associated with diseases in which cognitive dysfonction plays a significant rôle, such as Alzheimer’s disease. In fact, administration of acétylcholine esterase inhibitors is one of the two major treatment paradigms for Alzheimer’s disease. The other major treatment paradîgm is the administration of memantine, an NMDA receptor antagonist. Three acétylcholine esterase inhibitors are presently approved for treatment of Alzheimer’s disease, i.e. donepezil, rivastigmine and galantamine. Donepezil was first approved by FDA in 1996; Rivastigmine was first approved by FDA in 2000; and Galantamine was first approved by FDA in 2001.
In addition to the three above mentioned acétylcholine esterase inhibitors, the compound tacrine was previously approved by FDA. Furthermore, the patent literature contains a long range of documents disclosing compounds that act as acétylcholine esterase inhibitors, examples of which include WO 88/08708, WO 93/13100, WO97/38993, WO 2003/082820, US 4,914,102, US 5,231,093, US 5,246,947, EP 268871, EP 298202, EP 409676, EP477903 and EP 703901.
Cognitive dysfunction plays a major rôle in many CNS (Central Nervous System) diseases. This includes for instance Alzheimer’s disease, vascular dementia, and cognitive dysfonction associated with dépréssion, schizophrenia, Parkinson’s disease, abuse or Huntington’s disease. Cognitive dysfonction is not adequately addressed with current therapy and the présent invention seeks to provide alternative and more efficient ways to treat cognitive dysfonction.
Summaryofthe invention
The présent inventor has found that the combined use of the acétylcholine esterase inhibitor donepezil and vortioxetine gives rise to a synergistic increase in the extra-cellular level of acétylcholine in the brain.
Accordingly, in one embodiment, the présent invention relates to a composition comprising vortioxetine and donepezil.
In one embodiment, the invention relates to the use of vortioxetine and donepezil for the manufacture of a médicament for the treatment of cognitive dysfunction.
In one embodiment, the invention relates to a method for the treatment of cognitive dysfunction, the method comprising the combined administration of vortioxetine and donepezil to a patient in need thereof.
In one embodiment, the invention relates to vortioxetine and donepezil for the combined use in a method for the treatment of cognitive impairment.
Figures
Figure 1: The pharmacodynamie acétylcholine response in the ventral hippocampus in freelymoving rats after the combined administration of vortioxetine and donepezil. Figure 1 A: Acétylcholine response at 0 mg/kg vortioxetine and 0 mg/kg donepezil (·); 0.3 mg/kg donepezil (A); or 1 mg/kg donepezil (). Figure IB: Acétylcholine response at 5 mg/kg vortioxetine and 0.3 mg/kg donepezil (A); and 1 mg/kg donepezil (). Vehicle/vehicle (·) is included for reference. Figuge IC: Acétylcholine response at 10 mg/kg vortioxetine and 0.3 mg/kg donepezil (A); and 1 mg/kg donepezil (). Vehicle/vehicle (·) is included for reference.
Figure 2: The pharmacodynamie acétylcholine response in the ventral hippocampus in freelymoving rats after the combined administration of vortioxetine and donepezil.
Figure 2A: Acétylcholine response at 0.3 mg/kg donepezil and 0 mg/kg vortioxetine (A); 5 mg/kg vortioxetine (); or 10 mg/kg vortioxetine (X).Vehicle/vehicle (·) is included for reference. Figure 2B: Acétylcholine response at 1 mg/kg donepezil and 0 mg/kg vortioxetine (A); 5 mg/kg vortioxetine (); or 10 mg/kg vortioxetine (X).Vehicle/vehicle (·) is included for reference.
Figure 3: The pharmacodynamie acétylcholine response in the ventral hippocampus in freelymoving rats after the administration of vortioxetine. Acétylcholine response at 0 (·), 2.5 mg/kg (A), 5 mg/kg () and 10 mg/kg (X) vortioxetine.
Figure 4: The pharmacodynamie acétylcholine response in the ventral hippocampus in freelymoving rats after the combined administration of vortioxetine and galantaine. Figure 4a: Acétylcholine response at vehicie (injected at Φ) and vehicie (injected at Θ) (O); and vehicie (injected at Q) and vortioxetine at 10 mg/kg (injected at ©) (·). Figure 4b: Acétylcholine response at galantamine at 0.3 mg/kg (injected at Φ) and vehicie (injected at θ) (Δ); and galantamine at 1.0 mg/kg (injected at Φ) and vehicie (injected at ©) (A). Figure 4C:
Acétylcholine response at vehicle (injected at Φ) and vehicle (injected at ©) (O); vehicle (injected at Φ) and vortioxetine at 10 mg/kg (injected at Θ) (·); galantamine at 0.3 mg/kg (injected at Φ) and vehicle (injected at ©) (Δ); galantamine at 1.0 mg/kg ((injected at Φ) and vehicle (injected at Θ) (T~h: galantamine at 0.3 mg/kg (injected at Φ) and vortioxetine at 10 mg/kg (injected at Θ) (A.); and galantamine at 1.0 mg/kg (injected at Φ) and vortioxetine at 10 mg/kg (injected at O) ().
Figure 5: The pharmacodynamie acétylcholine response in the ventral hippocampus in freelymoving rats after the combined administration of vortioxetine and rivastigmine. Figure 5a: Acétylcholine response at rivastigmine at 0.2 mg/kg (injected at Φ) and vehicle (injected at ©) (+); and rivastigmine at 0.6 mg/kg (injected at Φ) and vehicle (injected at Θ) (x). Figure 5b: Acétylcholine response at vehicle (injected at Φ) and vehicle (injected at Θ) (O); vehicle (injected at Φ) and vortioxetine at 10 mg/kg (injected at ©) (·); rivastigmine at 0.2 mg/kg (injected at Φ) and vehicle (injected at ©) (+); rivastigmine at 0.6 mg/kg ((injected at Φ) and vehicle (injected at Θ) (x); rivastigmine at 0.2 mg/kg (injected at Φ) and vortioxetine at 10 mg/kg (injected at Θ) (O); and rivastigmine at 0.6 mg/kg (injected at Φ) and vortioxetine at 10 mg/kg (injected at Θ) (♦).
Figure 6: Récognition Index obtained from novel object récognition in rats treated with vehicle; scopolamine (0.5 mg/kg); scopolamine (0.5 mg/kg) + vortioxetine (5 mg/kg); scopolamine (0.5 mg/kg) + donepezil (0.5 mg/kg); or scopolamine (0.5 mg/kg) + vortioxetine (5 mg/kg) + donepezil (0.5 mg/kg).
Detailed description of the invention
The présent invention encompasses the use of vortioxetine for the treatment of cognitive dysfunction. In the présent context, “vortioxetine” includes vortioxetine as the free base and as a pharmaceutically acceptable sait. Particular mention is made of the HBr sait, the tatrate sait and the (DL)-lactate sait.
The molecular structure of vortioxetine free base is depicted below
The présent invention encompasses the use of donepezil for the treatment of cognitive dysfonction. In the présent context, “donepezil” includes donepezil as the free base and as a pharmaceutically acceptable sait. Particular mention is made of the HCl sait.
The molecular structure of donepezil free base is depicted below.
N
In more general ternis, said pharmaceutically acceptable salts are acid addition salts of acids that are non-toxic. Said salts include salts made from organic acids, such as maleic, fomaric, benzoic, ascorbic, succinic, oxalic, bis-methylenesalicylic, methanesulfonic, ethanedisulfonic, acetic, propionic, tartane, salicylïc, citric, gluconic, lactic, malic, mandelic, cinnamic, citraconic, aspartic, stearic, palmitic, itaconic, glycolic, p-aminobenzoic, glutamic, benzenesulfonic, theophylline acetic acids, as wel! as the 8-halotheophylIines, for example 8bromotheophylline. Said salts may also be made from inorganic salts, such as hydrochloric, hydrobromic, sulforic, sulfamic, phosphoric and nitric acids.
Processes for the manufacture of vortioxetine are disclosed in the International patent applications published as WO 03/029232, WO 2007/144005 and WO 2010/094285. Donepezil is readily available from many commercial suppliers.
The combined administration of vortioxetine and donepezil may take the form of simultaneous administration. In this embodiment, vortioxetine and donepezil are administered to the patient essentially at the same time, either in the form of an administration form that comprises both vortioxetine and donepezil, or in the form of separate administration forms, i.e. a first administration form comprising vortioxetine and a second administration form comprising donepezil.
Altematively, the combined administration of vortioxetine and donepezil comprises a time gab between the administration of vortioxetine and the administration of donepezil. In this embodiment, either vortioxetine or donepezil may be administered first. As evidenced by the data shown in the Examples part there is a synergistic effect between vortioxetine and donepezil.
Said synergistic effect is dépendent on the presence of pharmacologically relevant amounts of both vortioxetine and donepezil in the body at the same time. This puts an upper limit to the time gap which may be between the administration of vortioxetine and the administration of donepezil. In practice, the synergistic effect is likely to décliné if the administration of vortioxetine and the administration of donepezil is interspaced by more than approximately 2 half-lifes of the first of the two compounds to be administered. In one embodiment, the administration of the two compounds is interspaced by 0-1 half-life of the first compound to be administered. In the présent context, “half-life” is the time required for the plasma level of a pharmaceutically active ingrédient to reach 50% of its initial value.
The half-life of donepezil in humans is approximately 70 hours [xPharm: The Comprehensive Pharmacology Reference, 1-5, Elsevier, 2007].
The half-life of vortioxetine in humans is approximately 57 hours, [Basic&Clin Pharm&Tox, 198-205,2012].
Vortioxetine is typically administered at 1-100 mg/day, such as 1-50 mg/day, such as 5, 10,15,20 or 30 mg/day.
Donepezil is typically administered at 1-100 mg/day, such as 1-30 mg/day, such as 1,5, 15 or 25 mg/day.
That daily dosage of vortioxetine and donepezil may be administered in one portion or in two or more portions.
As demonstrated in the examples part, the combined administration of vortioxetine and donepezil gives rise to a synergistic effect on acétylcholine levels in the brain. Moreover, the examples part also demonstrates that the combined administration of other acétylcholine esterase inhibitors, such as galantamine and rivastigmine does not resuit in such synergistic effect. The data thus shows that the vortioxetine/donepezil combination is endowed with properties that are unique to this particular combination and not shared by combinations of vortioxetine and other acétylcholine esterase inhibitors.
This finding is further supported by the experiment reported in example 5 where the impact of donepezil and vortioxetine on the memory in rats has been investigated. The test used is the novel object récognition test which is a recognised method to assess the impact of a given treatment on memory. The test relies on the natural propensity of rats to explore novel objects in their environment, and quantifies the extent to which rats remember objects they hâve already been exposed to. In a habituation phase, rats are allowed to explore the test room environment and two objects which differ in shape, colour and texture. In the test phase, one of the objects is exchanged so that the rats are exposed to one novel object and one familiar object. The time spent exploring the novel and the familiar object is recorded following the administration of test compounds. The results in example 5 show that vortioxetine at 5 mg/kg does not compensate for the memory impairment induced by 0.5 mg/kg scopolamine. Similarly, donepezil at 0.5 mg/kg does not compensate for the memory impairment induced by 0.5 mg/kg scopolamine. Notably, however, vortioxetine and donepezil at these sub-effective dosages when adminîstered together does bring about a significant improvement in the memory of rats. The results from this behavioural model show that the synergistic increase in acétylcholine levels demonstrated in examples 1-4 seem to be reflected in the behaviour of rats.
The receptor occupancy in rats following administration of vortioxetine has been investigated in Jpharmacol Exp Ther. 340,345-366,2012 and Eur Neuropsychopharm, 23, 133145,2013. The results show that vortioxetine dosed at 5-10 mg/kg gives almost full occupancy at relevant targets, such as serotonin transporter, 5-HTj-receptor and 5-HTiB-receptor. The serotonin transporter occupancy in humans was investigated in Basic & Clin Pharmacol &Tox, 110,401-404,2012. It was found that 5,10 and 20 mg/day gives occupancy of 51,63 and 90%, respectively. The corrélation between plasma concentration of donepezil and inhibition of acétylcholine esterase has been investigated in Neurol, 50,136-145,1998. It was found that a plasma concentration of-20 ng/ml gives lise to —60% inhibition and that a plasma concentration of-6 ng/ml gives rise to 15% inhibition. In this respect it is also noted that the active sequences of human acétylcholine esterase (Uniprot P22303) and ratus norvegucus (Uniprot P37136) hâve close to 90% identity. On this background, and mindful of the plasma levels reported in Example 1, it is concluded that the investigated level of vortioxetine (5-10 mg/kg) corresponds to a clinical dose of 5-20 mg vortioxetine per day în humans. Similarly, the investigated dose of donepezil 0.3 mg/kg corresponds to a sub-effective dose, whereas a dose of 1 mg/kg corresponds to a clinical dose of 5-25 mg per day in humans.
The approved maintenance dosage (FDA) for donepezil is 10 or 23 mg per day with 5 mg as initial dose. Thus, in one embodiment, the invention relates to the administration of 1 mg or more, such as 2 mg or more, such as 5 mg or more such as 10 mg or more donepezil per day in combination with vortioxetine, typically adminîstered at 1,5,15 or 20 mg per day. Particular examples include 5-10 mg donepezil in combination with 5-20 mg, such as 10 or 15 mg, vortioxetine per day. Particular examples include 10-25 mg donepezil, such as 23 mg donepezil in combination with 5-20 mg, such as 10 or 15 mg, vortioxetine per day.
The active pharmaceutical ingrédients used the présent invention, i.e. vortioxetine and donepezil may be adminîstered alone as pure compounds or in combination with pharmaceutically acceptable carriers or excipients, in either single or midtiple doses. The pharmaceutical compositions according to the invention may be formulated with pharmaceutically acceptable carriers or diluents as well as any other known adjuvants and excipients in accordance with conventional techniques such as those disclosed in Remington: The Science and Practice of Pharmacy, 21 Edition, Hauber, Ed., Lippincott Williams & Wilkins, 2006.
The pharmaceutical compositions may be specifically formulated for administration by any suitable route such as the oral, rectal, nasal, pulmonary, topical (including buccal and sublingual), transdermal, intracistemal, intraperitoneal, vaginal and parentéral (including subcutaneous, intramuscular, intrathecal, intravenous and intradermal) route, the oral route being preferred. It will be appreciated that the preferred route may dépend on the general condition and age of the subject to be treated, the nature of the condition to be treated and the active ingrédient chosen.
Pharmaceutical compositions for oral administration include solid dosage forms such as capsules, tablets, dragees, pills, lozenges, powders and granules. Where appropriate, they can be prepared with coatings.
Liquid dosage forms for oral administration include solutions, émulsions, suspensions, syrups and élixirs.
Pharmaceutical compositions for parentéral administration include stérile aqueous and nonaqueous injectable solutions, dispersions, suspensions or émulsions as well as stérile powders to be reconstituted in stérile injectable solutions or dispersions prior to use.
Other suitable administration forms include suppositories, sprays, ointments, cremes, gels, inhalants, dermal patches, implants, etc.
For parentéral administration, solutions of the compound of the invention in stérile aqueous solution, aqueous propylene glycol, aqueous vitamin E or sesame or peanut oil may be employed. Such aqueous solutions should be suitably buffered if necessary and the liquid diluent first rendered isotonie with sufficient saline or glucose. The aqueous solutions are particularly suitable for intravenous, intramuscular, subcutaneous and intraperitoneal administration. The stérile aqueous media employed are ail readily available by standard techniques known to those skilled in the art.
Suitable pharmaceutical carriers include inert solid diluents or fillers, stérile aqueous solution and various organic solvents. Examples of solid carriers are lactose, terra alba, sucrose, cyclodextrin, talc, gélatine, agar, pectin, acacia, magnésium stéarate, stearic acid and lower alkyl ethers of cellulose. Examples of liquid carriers are syrup, peanut oil, olive oil, phospho lipids, fatty acids, fatty acid amines, polyoxyethylene and water. The pharmaceutical compositions formed by combining the compound used in the invention and the pharmaceutical acceptable carriers are then readily administered in a variety of dosage forms suîtable for the disclosed routes of administration.
Formulations ofthe présent invention suîtable for oral administration may be presented as discrète units such as capsules or tablets, each containing a predetermined amount of the active ingrédient, and which may include a suîtable excipient. Furthermore, the orally available formulations may be in the form of a powder or granules, a solution or suspension in an aqueous or non-aqueous liquid, or an oil-in-water or water-in-oil liquid émulsion.
If a solid carrier is used for oral administration, the préparation may be tablet, e.g. placed in a hard gélatine capsule, in powder or pellet form or in the form of a troche or lozenge. The amount of solid carrier may vary but will usually be from about 25 mg to about 1 g.
If a liquid carrier is used, the préparation may be in the form of a syrup, émulsion, soft gélatine capsule or stérile injectable liquid such as an aqueous or non-aqueous liquid suspension or solution.
Tablets may be prepared by mixing an active ingrédient with ordinary adjuvants and/or diluents followed by the compression of the mixture in a conventîonal tabletting machine. Examples of adjuvants or diluents comprise: Com starch, potato starch, talcum, magnésium stéarate, gélatine, lactose, gums, and the like. Any other adjuvants or additives usually used for such purposes such as colourings, flavourings, preservatives etc. may be used provided that they are compatible with the active ingrédients.
Conveniently, the compounds of the invention are administered in a unit dosage form containing vortioxetine and donepezil each in an amount of about 1-100 mg. In particular, a unit dose of vortioxetine can be 5,10,15,20 or 25 mg. In particular, a unit dose of donepezil can be 1,2,5,10,15,20 or 25 mg.
Cognitive dysfonction include a décliné in cognitive fonctions or cognitive domains, e.g. working memory, attention and vigilance, verbal leaming and memory, visual leaming and memory, reasoning and problem solving e.g. executive function, speed of processing and/or social cognîtion. In particular, dysfunction may indicate déficits in attention, disorganized thinking, slow thinking, difficulty in understanding, poor concentration, impairment of problem solving, poor memory, difïïculties in expressing thoughts and/or difïiculties in integrating thoughts, feelings and behaviour, or difficulties in extinction of irrelevant thoughts. Dementia is a manifestation of cognitive dysfonction. The terms “cognitive déficits and cognitive impairment” may be used synonymously with “cognitive dysfonction. .
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As mentioned above, cognitive dysfonction forms an important part of the clinical manifestation of a number of CNS diseases. For some CNS diseases, cognitive dysfonction is the primary manifestation of the disease, such as e.g. Alzheimer’s disease. For other diseases, such as dépréssion, cognitive dysfonction may form part of the clinical manifestation of the diseases, but it is also to a significant extent independent of dépréssion. It has for instance been observed that outcome on cognitive and dépréssion scales do not run in parallel in clinical trials with antidepressants in depressed patients. Often cognitive dysfunction persists upon recovery from dépréssion symptoms. On this background, it is belîeved that the combined administration of vortioxetine and donepezil is usefol for the treatment of dementia in Alzheimer’s disease, vascular dementia, dementia in Pick’s disease, dementia în Creutzfeldt-Jakob disease, dementia în Huntington’s disease, dementia in Parkinson’s disease, dementia in HIV (human immunodeficiency virus), dementia in abusera (alcohol or drugs), MCI (mild cognitive impainnent), cognitive dysfonction associated with dépréssion and cognitive dysfonction associated with schizophrenia.
In one embodiment, the invention relates to a method for the treatment of a disease seiected from cognitive dysfonction; dementia in Alzheimer’s disease; vascular dementia; dementia in Pick’s disease; dementia in Creutzfeldt-Jakob disease; dementia in Huntington’s disease; dementia in Parkinson’s disease; dementia in HIV (human immunodeficiency virus); dementia in abusera (alcohol or drugs).MCI (mild cognitive impainnent); cognitive dysfonction associated with dépréssion; and cognitive dysfonction associated with schizophrenia, the method comprising the combined administration of a therapeutically effective amount of vortioxetine and donepezil to a patient in need thereof.
In one embodiment, the invention relates to the use of vortioxetine and donepezil for the manufacture of a médicament for the treatment of a disease seiected from cognitive dysfunction; dementia in Alzheimer’s disease; vascular dementia; dementia in Pick’s disease; dementia in Creutzfeldt-Jakob disease; dementia in Huntington’s disease; dementia in Parkinson’s disease; dementia in HIV (human immunodeficiency virus); dementia in abusera (alcohol or drugs); MCI (mild cognitive Ïmpairment); cognitive dysfunction associated with dépréssion; and cognitive dysfonction associated with schizophrenia.
In one embodiment, the invention relates to vortioxetine and donepezil for the combined use in a method for the treatment of a disease seiected from cognitive dysfonction; dementia in
Alzheimer’s disease; vascular dementia; dementia in Pick’s disease; dementia in CreutzfeldtJakob disease; dementia in Huntington’s disease; dementia in Parkinson’s disease; dementia in
HIV (human immunodeficiency virus); dementia in abusera (alcohol or drugl); MCI (mild cognitive impairment); cognitive dysfonction associated with dépréssion; and cognitive dysfonction associated with schizophrenia.
A therapeutically effective amount of compounds as used herein means an amount sufficient to cure, alleviate or partially arrest the clinical manifestations of a given disease and its complications in a therapeutic intervention comprising the administration of said compounds. An amount adéquate to accomplish this is defined as a therapeutically effective amount. Effective amounts for each purpose will dépend on the severity of the disease or injury as well as the weight and general state of the subject.
The term treatment and treating as used herein means the management and care of a patient for the purpose of combating a condition, such as a disease or a disorder. The term is intended to inciude the fol! spectrum of treatments for a given condition from which the patient is suffering, such as administration of the active compounds to alleviate the symptoms or complications, to delay the progression of the condition, and/or to cure or eliminate the condition. The patient to be treated is preferably a mammal, in particular a human being.
Ail references, including publications, patent applications, and patents, cited herein are hereby incorporated by reference in their entirety and to the same extent as if each reference w'ere individually and specifically indicated to be incorporated by reference and were set forth in its entirety herein (to the maximum extent permitted by law), regardless of any separately provided incorporation of particular documents made elsewhere herein.
The use of the terms “a” and “an” and “the” and similar referents in the context of describing the invention are to be construed to cover both the singular and the plural, unless otherwise indicated herein or clearly contradicted by context. For example, the phrase the compound is to be understood as referring to various compounds of the invention or particular described aspect, unless otherwise indicated.
The description herein of any aspect or aspect of the invention using terms such as “comprising” “having,” “including,” or “containing” with reference to an element or éléments is intended to provide support for a similar aspect or aspect of the invention that “consists of “consists essentially of \ or “substantially comprises” that particular element or éléments, unless otherwise stated or clearly contradicted by context (e.g., a composition described herein as comprising a particular element should be understood as also describing a composition consisting of that element, unless otherwise stated or clearly contradicted by context).
Examples
Amount of a compound administered is indicated as the amount of corresponding free base. Example 1 Effects of vortioxetine and donepezil on acétylcholine levels in hippocampus of freely-moving rats
Adult, male, Wistar rats were used for the experiments. The rats were anesthetized before surgery. Each animal was placed in a stereotaxic frame (Kopf Instruments, USA) and an *
incision was made on the top ofthe skull. A microdialysis probe with a 4 mm exposed surface (polyacrylnitril membrane, Brainlink, the Netherlands) was implanted into the ventral hippocampus. Coordinates were AP=-5.3 mm (to bregma), latéral +4.8 mm (to midline), ventral -8.0 mm (to dura), the incisor bar set at -3.3 mm [Paxinos and Watson, The rat brain in stereotaxic coordinates, Academie Press, 6Λ édition, New York, 2008]. The probes were attached to the skull with stainless steel screws and dental cernent. Experiments started after one day of recovery.
Vortioxetine HBr was prepared in 10% 2-hydroxypropyl-P-cyclodextrin at 0,5 or 10 mg/ml. Donepezil HCl was prepared in ultrapure water at 0,0.3 or 1.0 mg/ml. Vortioxetine was administered subcutaneously and donepezil was administered intraperitonealt.
At the day of the experiment, the microdialysis probe was connected with flexible PEEK. tubing to a microperfusion pump (Harvard) and perfused with artificial cerebrospinal fluid contaning 147 mM NaCl, 3.0 mM KC1,1.2 mM CaCh and 1.2 mM MgCb at a flow rate of 1.5 μΙ/min. After two hours of prestabilisation, samples (30 μΐ) were collected and stored in 20 mM formic acid and 0.04% ascorbic acid (10 μΐ).
The concentration of acétylcholine in the samples was determined by HLPC fitted with tandem mass spectroscopy (MS/MS) for détection using acetyl-p-methyl-choline as internai standard. Chromatographie séparation was perfomed on a reversed phase Phenomenex Synergi Max-RP coiumn (2.0 x 150 mm, particle size 4 pm) at 50°C. Components were separated using an isocratic flow of eluent A (20 mM ammonium acetate, 5% acetonitril and 0.3% trifluoroacetic acid) at a flow rate of 0.25 ml/min.
MS analyses were performed using an API 3000 MS/MS system consisting of an API 3000 MS/MS detector and a Turbo Ion Spray interface. The acquesitions were performed in positive ionisation mode with ionisation spray voltage set at 4.5 kV and a probe température at 550 °C. The instrument was operated in multiple-reaction-monitoring mode.
The average of three pre-administration samples was set to 100%. If relative samples were <50% or >150% they were considered outliers and not used for baseline calculation. Ail post-administration samples were expressed as a percentage of basal level within the same subject. Time and treatment effects were compared using two-way ANOVA for repeated measurements followed by Student-Newman-Keuls post-hoc test. Significance was defined as p<0.05
Groups of five animais were exposed to combinations of vortioxetine (vehicle, 5 mg/kg and 10 mg/kg sc) and donepezil (vehicle, 0.3 mg/g and 1 mg/kg ip) administered simultaneously. The data is depicted in figure la-c and 2a-b.
In addition, blood samples were taken from each animal to measure the plasma level of the active ingrédients. The tablel below depicts the results
Table I
| Vortioxetine | |||||||
| Vehicle | 5 mg/kg | lOmgltg | |||||
| ï c έ | Vortioxetine in plasma (ng'ml) | Donepezil in plasma (ng/ml) | Vortioxetine in plasma (ng/ml) | Donepezil in plasma (ng/ml) | Vortioxetine in plasma (ng/ml) | Donepezil in plasma (ng/ml) | |
| Vehicle | 0 | 0 | ND | ND | ND | ND | |
| 0.3 mg/kg | 0 | 6.4 | 149 | 7.8 | 317 | 6.4 | |
| l rnglg | 0 | 21 | 137 | 28 | 317 | 26 |
The data in the above table shows that the animais were, indeed, exposed to the two active ingrédients, and that consistent levels were found throughout the experiments
The data obtained for the acétylcholine levels in ventral hippocampus and depicted in figures la-c and 2a-b shows that acétylcholine levels at 10mg/kg vortioxetine and 1 mg/kg donepezil were significantly increased compared to acétylcholine levels at any other treatment. The data also shows that acétylcholine levels at 5 mg/kg vortioxetine and 1 mg/kg donepezil were significantly increased compared to acétylcholine levels at any level of vortioxetine at 0 and 0.3 mg/kg donepezil. The data also shows that the administration of donepezil at 1 mg/kg and vehicle significantly increased acétylcholine levels compared to vehicle + vehicle treatment.
Example 2 Effect of vortioxetine on acétylcholine levels in hippocampus of freely-moving rats
Thîs experiment was carried out essentially as described in Example 1. The analytical set-up was slightly modified as follows. Chromatographie séparation was performed on a reverse-phase 150 x 2.00 mm (4 gm) analytical column (Phenomenex Synergy MAX-RP, Bester) protected by a 4 x 2.0 mm guard column (Phenomenex Synergy MAX-RP AJO-6073, Bester). both held at a
A température of 30° C. The mobile phase (isocratic) consisted of water acetonitrile (ACN), and trifluoroacetic (TFA) acid (water:ACN:TFA = 95.0:5:0.1 v/v/v%)at a flow rate of0.200 ml/min. MS analyses were performed using a API 3000 MS/MS system consisting of a API 3000 MS/MS detector and a Turbo Ion Spray interface (both from Applied Biosystems, the Netherlands). The acquisitions were performed in positive ionization mode with ion spray voltage set at 5.5 kV, with a probe température of450°C.
Groups of five animais were exposed vortioxetine (vehicle, 2.5 mg/kg, 5 mg/kg and 10 mg/kg sc). The data are depicted in figure 3.
The results obtained in Examples 1 and 2 clearly establish that the extra-cellular acétylcholine levels obtained as a resuit of the combined administration of vortioxetine and donepezil are significantly higher than the levels obtained upon individual administration of vortioxetine and donepezil. That is, a synergistic effect on acétylcholine levels between vortioxetine and donepezil has been demonstrated.
A synergistic effect between two pharmaceutically active compounds may be exploited in at least two ways. The doses normally applied in mono-treatment using the two pharmaceutically active compounds can be maintained in a combination treatment and a targer than expected clinical effect can be achieved. Altematively, lower doses than normally applied in monotreatment using the two pharmaceutically active compounds can be applied for either or both of the compounds in order to maintain the clinical effect, however at a lower drug exposure. A lower drug exposure may be bénéficiai because adverse events can be expected to increase with increasing drug loads.
Example 3 Effects of vortioxetine and galantamine on acétylcholine levels in hippocampus of freely moving rats
Adult, male Sprague Dawley rats were used in the experiments. The rats were anesthetized before surgery. The animais were placed in a stereotaxic frame (Kopf instruments, USA), and CMA12 guide cannulas (CMA Microdialysis, Sweden) were implanted aiming into the ventral hippocampus. Coordinates for the tips of the probes were AP = -5.3 mm to bregma, latéral (ML) = -4.8 mm to midline and ventral =-8.0 mm to dura (Paxînos and Watson).
Galanthamine, the chemical name of which is (4aS,6R,SaS)-4a,5,9,10,l 1,12-hexahydro3-methoxy-l l-methyl-6H-benzofuro[3a,3,2-ef][2]benzazepin-6-ol, was administered as the HBr sait. Vortioxetine was administered as the HBr salt.Vortioxetine and galantamine were prepared in 0.9% saline. Vortioxetine was administered subcutaneously at 10 mg/kg and galantamine was administered subcutaneously at 0.3 mg/kg and 1.0 mg/kg.
The day before the experiment, a microdialysis probe (CMA/12,4 mm, PAES, MWKO 100 kDa) was inserted into the respective guide cannula in the awake rats. The probes were perfused at a constant flow-rate of 1 μΐ/mîn with stérile artificial cerebrospinal fluid containing 148 mM NaCI, 4 mM KC1,0.8 mM MgC12,1.4 mM CaC12,1.2 mM Na2HPO4,0.3mM NaH2PO4, pH 7.2. At the day of the experiment, samples were collected in 30 min intervals prior to administration to define the baseline. The data is presented as percentage of baseline within the same animal. Significance is defined as p<0.05. Animais received treatments according to experimental protocol and samples were collected at 30 minutes intervals.
The concentration of acétylcholine in the samples was determined using a Waters Acquity HPLC System equipped with a Sunshell RP-Aqua 2.1x100mm, 2.6um particle column fitted with a Waters Quattro Premier XE triple quadrupole mass spectrometer operating in the MS/MS mode. Components were separated using an isocratic flow of eluent A (lOOmM ammonium acetate in milliQ water).
Groups of 6-8 animais were exposed to combinations of vortioxetine (vehicle and 10 mg/kg) and galantamine (vehicle, 0.3 mg/kg and 1.0 mg/kg). Injection of galantamine was 60 minutes prior to the injection of vortioxetine. The data obtained is depicted in figure 4a-4c
The data show that the administration of galantamine at 0.3 and 1.0 mg/kg gives rise to a dose dépendent, significant increase in acétylcholine levels in hippocampus of fieely moving rats. The results also shows that administration of vortioxetine at 10 mg/kg gives rise to a significant increase in the acétylcholine levels in hippocampus of fieely moving rats. These results support the findings in exampie 2. The data also shows that administration of galantamine at 0.3 or 1.0 mg/kg in combination with vortioxetine does not give rise to a significant increase in the acetyl choline levels compared to administration of galantamine at any level together with vehicle. In fact, the numerical values of acétylcholine levels are lower for the combined administration of galantamine at any level and vortioxetine compared to the administration of galantamine at any level and vehicle. Importantly, the results from example 3 show that the combined administration of vortioxetine and galantamine does not hâve a synergistic effect on acétylcholine levels.
Example 4 Effects of vortioxetine and rivastigmine on acétylcholine levels in hippocampus of freely moving rats I
Example 4 was carried essentially similar to example 3 except for the test compounds. Rivastigmine was prepared in 0.9% saline and administered subcutaneously at 0.2 mg/kg and 0.6 mg/kg. Rivastigmine, the chemical name of which is (S)-N-ethyl-N-methyl-3[l(dimethylamino)ethylj-phenyl carbamate, was administered as the tatrate sait.
The data obtained are depicted in figure 5d-5e and figure 4a for the vehicle-vehicle tests.
The data shows that administration of rivastigmine at 0.2 and 0.6 mg/kg dosedependently and significantly increases acétylcholine levels. The data also show that the combined administration of vortioxetine and rivastigmine at 0.6 mg/kg does not give rise to an increase in the acétylcholine levels compared to the administration of rivastigmine and vehicle. The data show that the combined administration of rivastigmine at 0.2 mg/kg and vortioxetine gives rise to a significantly higher level of acétylcholine compared to the administration of rivastigmine at 0.2 mg/kg and vehicle. The data shows that the sum of the acétylcholine levels following administration of vortioxetine + vehicle and rivastigmine at 0.2 mg/kg + vehicle is not different from the acétylcholine levels following the combined administration of rivastigmine at 0.2 mg/kg and vortioxetine, This shows that the combined administration of vortioxetine and rivastigmine at 0.2 mg/kg gives rise to an additive effect on the acétylcholine levels in the hippocampus of freely moving rats. Importantly, the data shows that the combined administration of galantamine and vortioxetine does not give rise to a synergistic effect on the acétylcholine levels in hippocampus.
Example 5 Effects of donepezil and vortioxetine on short-term episodic memory in rats.
The novel object récognition task (NOR) was used to assess the impact of vortioxetine and donepezil, alone or in combination, on the memory of rats with scopolamine-înduced memory impairment. Sprague-Dawley rats were used
One day 1 and day 2 of the experiment the rats received two habituation sessions to the test room environment including two objects (familiar objects). Each session lasted 6 minutes. Rats that did not explore the objects or rats that had a natural preference for one object over the other were excluded from the trial. At the test day, five groups of rats received a third habituation test (familiarization trial) after which they were removed from the test apparatus and one of the objects was replaced with a novel object. Four hours later, the rats were put back in the test apparatus (test phase) and the time used exploring of the familiar and the novel object was recorded. |
The five groups of rats were treated with vehicle, scopolamine, vortioxetine, donepezil and vortioxetine+donepezil intraperitonelt as follows. The numbers in parenthesis indicate the number of rats in each group
| 1 (13) | 2 (8) | 3 (8) | 4 (4) | 5 (6) | |
| Saline 40 minutes prior to familiarization trial | x | ||||
| Scopolamine (0.5 mg/kg) 40 minutes prior to familiarization trial | x | x | X | x | |
| Donepezil at 0.5 mg/kg 20 minutes prior to familiarization trial | x | ||||
| Vortioxetine at 5 mg/kg 20 minutes prior to familiarization trial | X | ||||
| Donepezil at 0.5 mg/kg and vortioxetine at 5 mg/kg 20 minutes prior to familiarization trial | x |
Figure 6 depicts the exploration of the noveï object by means of the récognition index (RI) defined as , N —F
Rl=x-—=xlOQ% N + F wherein N is time spent with novel object and F is time spent with familiar object.
The data show that RI for groups 2,3 and 4 is signifîcantly (p<0.00l ) lower than RI for group 1, and that RI for group 5 is signifîcantly (p<0.05) higher than RI for any of groups 2,3 and 4. This shows scopolamine impairs short-term memory in rats and that neither vortioxetine at 5 mg/kg nor donepezil at 0.5 mg/kg is able to reverse this impairment. In contrast hereto, the combined effect of vortioxetine at 5 mg/kg and donepezil at 0.5 mg/kg does reverse the memory impairment induced by scopolamine.
Claims (12)
- Claims1. A phannaceutical composition comprising vortioxetine and donepezil together with a pharmaceutically acceptable excipient.
- 2. The composition according to daim one comprising 5-25 mg donepezil.
- 3. The composition according to daim 1 or 2 comprising 5-20 mg vortioxetine.
- 4. The use of vortioxetine and donepezil for the manufacture of a médicament for the treatment of a disease selected from cognitive dysfonction; dementia in Alzheimer’s disease; vascular dementia; dementia in Pick’s disease; dementia in Creutzfeldt-Jakob disease; dementia in Huntington’s disease; dementia in Parkinson’s disease; dementia in HIV (human immunodefîciency virus); dementia in abusers (alcohol or drugs); MCI (mild cognitive impairment); cognitive dysfonction associated with dépréssion; and cognitive dysfonction associated with schizophrenia.
- 5. The use according to claim 4, wherein said médicament comprises 5-25 mg donepezil.
- 6. The use according to claim 4 or 5, wherein said médicament comprises 5-20 mg vortioxetine.
- 7. Vortioxetine and donepezil for use in a method for the treatment of a disease selected from cognitive dysfonction; dementia in Alzheimer’s disease; vascular dementia; dementia in Pick’s disease; dementia in Creutzfeldt-Jakob disease; dementia in Huntington’s disease; dementia in Parkinson’s disease; dementia in HIV (human immunodefîciency virus); dementia in abusers (alcohol or drugs); MCI (mild cognitive impairment); cognitive dysfonction associated with dépréssion; and cognitive dysfonction associated with schizophrenia.
- 8. The use according to claim 7, wherein said donepezil is between 5 and 25 mg donepezil.
- 9. The use according to claim 7 or 8, wherein said vortioxetine is between 5 and 20 mg vortioxetine.
- 10. A method for the treatment of a disease selected from cognitive dysfonction; dementia in Alzheimer’s disease; vascular dementia; dementia in Pick’s disease; dementia in CreutzfeldtJakob disease; dementia in Huntington’s disease; dementia in Parkinson’s disease; dementia in HIV (human immunodefîciency virus); dementia in abusers (alcohol or drugs); MCI (mild cognitive impairment); cognitive dysfonction associated with dépréssion; and cognitive dysfonction associated with schizophrenia, the method comprising the combined administration of vortioxetine and donepezil to a patient in need thereof.
- 11. The use according to claim 11, wherein said patient is administered 5-25 mg donejp&ÏL
- 12. The use according to claim 10 or 11, wherein said patient is administered 5-20¾
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| US61/736,799 | 2012-12-13 |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| OA17314A true OA17314A (en) | 2016-04-29 |
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