Cevimelinehydrochloride Chemical Properties

storage temp. 

-20°C

solubility 

H2O: ≥25mg/mL

form 

powder

color 

white to tan

InChIKey

ZSTLCHCDLIUXJE-MMPAUJBDSA-N

Safety Information

Hazard Codes 

T

Risk Statements 

25

Safety Statements 

45

RIDADR 

UN 2811 6.1 / PGIII

WGK Germany 

3

Cevimelinehydrochloride Usage And Synthesis

Description

Although it was initially developed as a cognition enhancer, cevimeline was launched in the US for the treatment of dry mouth symptoms (xerostomia) in patients with Sjogren’s syndrome. Cevimeline is a racemic mixture of cis-oxathiolanes that can be obtained with a three step synthesis starting from quinuclidin-3-one followed by separation from its 9-12- fold less potent trans-diastereomer, This conformationally rigid analog of acetylcholine is a dual muscarinic M₁/M₃ agonist, selective versus M₂, M₄ and M₅ receptors. It is the fifth M, agonist that has failed in clinical trials against Alzheimer’s disease. On the contrary, the sialagogic effects of cevimeline caused by its stimulation of M₃ receptors in salivary and lacrimal glands were demonstrated in randomized double-blind placebo-controlled clinical trials (30 mg t.i.d. oral dose). Cevimeline (l-3 mg/kg i.v.) was as potent in dogs as pilocarpine (0.1-0.3 mg/kg i.v.), the only prior drug efficacious against xerostomia associated with Sjogren’s syndrome, but the effects of cevimeline lasted around 2-fold longer. No cardiovascular side effects were reported with cevimeline, unlike pilocarpine which has a 40-fold higher affinrty for the M₂ receptor. Cevimeline seems to bind extensively to tissues (volume of distribution 6 L/kg in man) since it was found to be less than 20% bound to human plasma proteins. It is metabolized into the cis and transsulfoxide, a glucuronide conjugate and the N-oxide.

Originator

Israel Institute for Biological Research/Snow Brand (Israel)

Uses

Cevimeline hydrochloride hemihydrate may be used in cell signaling studies.

Uses

Treatment of cancer.

Manufacturing Process

(1) Into a 500 ml four-necked flask equipped with a stirrer, a thermometer and a calcium chloride tube, 10.6 g of 3-hydroxy-3- mercaptomethylquinuclidine (purity: 98.3%), 222.8 g of chloroform, 31.7 g of toluene and 2.2 g of dimethylsulfoxide were charged, and 17.3 g of acetaldehyde was added thereto at 10-15°C. While maintaining the temperature at the same level, 12.2 g of anhydrous sodium sulfate was added thereto. Then, 9.8 g of hydrogen chloride gas was blown thereinto over a period of two hours, and then the mixture was maintained at room temperature for 6 hours with stirring.
To the reaction mixture, 125.7 g of a 15% sodium hydroxide aqueous solution was dropwise added to make the reaction mixture strongly alkaline. Then, undissolved inorganic salts were separated by filtration, and the inorganic salts were washed with 18.9 g of chloroform. The filtrate was subjected to liquid separation, and the aqueous layer was re-extracted with chloroform. These chloroform layers were put together, and 100.5 g of 5% sulfuric acid was added thereto to obtain desired 2-methylspiro(1,3-oxathiolane- 5,3')quinuclidine sulfate. Then, it was again made alkaline with 54.6 g of a 10% sodium hydroxide aqueous solution to free the desired 2- methylspiro(1,3-oxathiolane-5,3')quinuclidine, which was then extracted four times with 33 g of n-hexane. The n-hexane layer was dried over anhydrous sodium sulfate, and then, sodium sulfate was filtered off to obtain a n-hexane solution of 2-methylspiro(1,3-oxathiolane-5,3')quinuclidine. To this n-hexane solution, 18.0 g of an iso-propyl alcohol solution containing 20% of hydrochloric acid was dropwise added to obtain 2-methylspiro(1,3- oxathiolane-5,3')quinuclidine hydrochloride. After stirring for 3 hours, precipitated white crystals were collected by filtration to obtain 10.1 g of a mixture of hydrochlorides of trans- and cis-2-methylspiro(1,3-oxathiolane- 5,3')quinuclidine (purity: 95.8%, yield of pure product 68.5%).
(2) Into a 500 ml four-necked flask equipped with a stirrer and a thermometer, 4.9 g (0.02 mol) of the mixture of hydrochlorides of trans- and cis-2-methylspiro(1,3-oxathiolane-5,3')quinuclidine obtained in the above step (1) (the weight ratio of cis-and trans-isomers was 50.5/49.5) and 34 ml of chloroform (this chloroform contained 0.5 wt % of ethyl alcohol) were charged, and 17 ml of a chloroform solution containing 0.2 g of hydrogen chloride (this chloroform also contained 0.5 wt % of ethyl alcohol) was added thereto with stirring. Then, 7.8 g of stannic chloride was dropwise added thereto over a period of 30 min, and an isomerization reaction was carried out with stirring at room temperature for 24 hours. To the reaction product, 50 ml of water was added, and a 48% sodium hydroxide aqueous solution was added thereto with stirring to make the reaction mixture strongly alkaline. Then, the chloroform layer was separated. To the aqueous solution, 10 ml of chloroform was added for re-extraction. These chloroform layers were put together, and 24.0 g of 5% sulfuric acid was added thereto to convert 2- methylspiro(1,3-oxathiolane-5,3')quinuclidine in the reaction mixture to a sulfate, which was then dissolved in water. To this aqueous layer, a 10% sodium hydroxide aqueous solution was again added to make it strongly alkaline and to free 2-methylspiro(1,3-oxathiolane-5,3')quinuclidine in the reaction mixture. Then, it was extracted four times with 15 ml of n-hexane. The extracted n-hexane layer was dried over anhydrous sodium sulfate. Then, an iso-propyl alcohol solution containing 20% of hydrochloric acid was dropwise added thereto to convert 2-methylspiro(1,3-oxathiolane- 5,3')quinuclidine in the reaction mixture to a hydrochloride, and precipitated white crystals were collected by filtration and dried to obtain 4.4 g of a mixture containing hydrochlorides of cis- and trans-2-methylspiro(1,3- oxathiolane-5,3')quinuclidine (yield hydrochlorides: 92.1%). The ratio of cis-and trans-2-methylspiro(1,3-oxathiolane-5,3')quinuclidine was 98.6/1.4 (was analyzed by liquid chromatography).

brand name

Evoxac

Therapeutic Function

Salivation stimulant

General Description

Cevimeline (Evoxac) iscis-2 -methylspiro {1-azabicyclo [2.2.2] octane-3, 5' -[1,3]oxathiolane} hydrochloride, hydrate (2:1). Cevimeline has amolecular weight of 244.79 and is a white to off white crystallinepowder. It is freely soluble in alcohol, chloroform, andwater. Cevimeline is a cholinergic agonist which binds to theM3 muscarinic receptor subtype, which results in an increasesecretion of exocrine glands, such as salivary and sweatglands. Because of these effects, it was approved for use in thetreatment of dry mouth associated with Sj?gren syndrome. Bystimulating the salivary muscarinic receptors cevimeline promotessecretion thereby alleviating dry-mouth in these patients.Cevimeline is metabolized by the isozymes CYP2D6and CYP3A3 and CYP3A4. It has a half-life of 5 hours.

Biochem/physiol Actions

Cevimeline stimulates the peripheral muscarinic acetylcholine receptors of salivary glands and increases the concentration of Ca+2 in parotic acini and duct cells of rats. It thus acts as therapeutic agent for xerostomia.

References

[1]. iga y, arisawa h, ogane n, et al. (+/-)-cis-2-methylspiro[1,3-oxathiolane-5,3'-quinuclidine] hydrochloride, hemihydrate (sni-2011, cevimeline hydrochloride) induces saliva and tear secretions in rats and mice: the role of muscarinic acetylcholine receptors. jpn j pharmacol, 1998, 78(3): 373-380.
[2]. fisher a, brandeis r, karton i, et al. (+-)-cis-2-methyl-spiro(1,3-oxathiolane-5,3') quinuclidine, an m1 selective cholinergic agonist, attenuates cognitive dysfunctions in an animal model of alzheimer's disease. j pharmacol exp ther, 1991, 257(1): 392-403.

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