Favipiravir synthesis process

A technology of synthesis process and process route, applied in the field of medicine and chemical industry, can solve the problems of troublesome industrial processing, cumbersome operation, low yield, etc., and achieve the effects of good industrialization value, simple synthesis process and simple raw materials

Inactive Publication Date: 2017-03-08
WUHAN INSTITUTE OF TECHNOLOGY +1
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Problems solved by technology

[0007] (2) Patent document CN 102775358A discloses a target compound prepared from 3-amino-2-pyrazinecarboxylic acid as a starting material through six steps of hydroxylation, esterification, amination, nitration, reduction, and fluorination. In the route, 6-nitro-3-hydroxyl-2-pyrazinamide has limited solubility in general organic solvents, and it is difficult to reduce it to amino compounds. The use of pyridine hydrofluoric acid in the last step is highly corrosive and the yield is low
[0009] (3) Wang Huan et al. (Chinese Journal of Pharmaceutical Industry, 2014, 45(11): 1009-1012.) Using diethyl aminomalonate hydrochloride as the starting material, after ammonolysis, cyclization and bromination Obtain 6-bromo-3-oxo-3,4-dihydropyrazine-2-carboxamide, and then use potassium acetate to select the 3-position fluorine after phosphorus oxychloride chlorination and potassium fluoride fluorination Hydrolysis and dicyclohexylamine salify, and then use hydrogen peroxide / sodium hydroxide to convert into amide to obtain the product favipiravir. The dicyclohexylamine used in this route belongs to flammable and highly toxic substances, and industrial processing is relatively troublesome. Suitable for industrial scale-up production, this method is cumbersome to operate, the reagents used are expensive, the production cost is high, and the total yield is less than 10%, so this method is not suitable for industrial production

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Examples

Experimental program
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Embodiment 1

[0032] 1) Preparation of 1.4-dioxypyrazinamide (2): Control the temperature at -5 to 5°C, mix 5.25 g of 2-cyanopyrazine (1) with 29.95 g of glacial acetic acid and 45.30 g of 30% hydrogen peroxide, Heating to 95°C, reflux reaction for 22h, TLC showed no raw material, 40°C reduced pressure rotary evaporation to remove solvent, added 15ml water, reduced pressure rotary evaporation, repeated several times to remove glacial acetic acid, added 15ml water, added hot chloroform extraction ( 15ml*3), the water layer was spin-dried under reduced pressure, recrystallized with 90% methanol, filtered, and the filter cake was vacuum-dried to obtain 4.45g of white powder 1,4-dioxopyrazinamide (2), with a melting point greater than 300°C and a yield of 57.43%.

[0033] 2) Preparation of 3,6-dichloro-2-cyanopyrazine (3): 6.20 g of 1.4-dioxypyrazinamide (2) was added to 24.53 g of redistilled phosphorus oxychloride and mixed evenly, Stir at 50°C for 50min, heat up to 70°C for 1h, cool to room...

Embodiment 2

[0038]1) Preparation of 1.4-dioxypyrazinamide (2): control the temperature at 0-5° C., disperse 4.92 g of pyrazinamide (1) in 5 ml of ethyl acetate, and mix m-chloroperoxybenzoic acid (85%) with 17.92 g was dissolved in 35ml of ethyl acetate, washed once with saturated brine, the organic layer was dried over anhydrous sodium sulfate, filtered, and the filtrate was added dropwise to the pyrazinamide ethyl acetate solution, and reacted at room temperature for 24 hours after the dropwise addition, TLC After the reaction is shown, filter, wash the filter cake with ethyl acetate (10ml*3), recrystallize the filter cake with 90% methanol, and vacuum dry to obtain 5.23g of white powder 1,4-dioxypyrazinamide (2) , the yield is 84.37%, and the melting point is greater than 300°C.

[0039] 2) Preparation of 3,6-dichloro-2-cyanopyrazine (3): Mix 6.20 g of 1.4-dioxypyrazinamide (2) with 10 mL of chlorobenzene and 22.08 g of phosphorus oxychloride, and heat up to Stir at 50°C for 50min, he...

Embodiment 3

[0044] 1) Preparation of 1.4-dioxypyrazinamide (2): Control the temperature at 0-5° C., mix 2.46 g of pyrazinamide (1) with 12 g of 98% trifluoroacetic acid and 18 g of 30% hydrogen peroxide, and heat up to 95 ℃, reflux reaction for 22 hours, TLC showed no raw material, 40 ℃ vacuum rotary evaporation to remove the solvent, add 5ml of water, add hot chloroform after vacuum rotary evaporation (10ml*3), the water layer was spin-dried under reduced pressure, 90% Methanol was recrystallized, filtered, and the filter cake was vacuum-dried to obtain 2.12 g of white powdery 1,4-dioxypyrazinamide (2), with a melting point greater than 300° C. and a yield of 68.40%.

[0045] 2) Preparation of 3,6-dichloro-2-cyanopyrazine (3): Mix 2.46 g of 1.4-dioxypyrazinamide (2) with 5 mL of chlorobenzene and 12.1 g of phosphorus oxychloride, and heat up to Stir at 50°C for 50min, heat up to 70°C for 1h, cool to room temperature, add 1.52g of pyridine, heat up to 110°C after addition, reflux for 8h, ...

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Abstract

The invention relates to a favipiravir synthesis process, which comprises: 1) dissolving a pyrazine compound in an organic reagent I, adding an oxidizing agent M, and carrying out a nitrogen oxidation reaction to obtain a white solid; 2) adding the obtained white solid to an organic reagent II, and carrying out a chlorination reaction to obtain a pale yellow solid; 3) uniformly mixing the obtained pale yellow solid, a dried aprotic polar solvent, a dried fluorine ion donor reagent and tetrabutylammonium bromide, and carrying out a stirring reaction to obtain a pale yellow solid; 4) adding the obtained pale yellow solid to water, and carrying out a reaction with 1,4-dioxane and sodium acetate to obtain a yellow oily matter; and 5) uniformly mixing the obtained yellow oily matter and concentrated sulfuric acid to obtain the target product favipiravir. According to the present invention, the method has advantages of simple and easily available raw materials, simple synthesis process and mild conditions, nitrogen oxidation, chlorination, fluorization and hydrolysis are performed to finally prepare the 6-fluoro-3-hydroxypyrazine-2-formamide, and the good industrial value is provided.

Description

technical field [0001] The invention belongs to the field of medicine and chemical industry, and in particular relates to a synthesis process of Favipiravir. Background technique [0002] Favipiravir (Favipiravir, T-705), chemically named 6-fluoro-3-hydroxypyrazine-2-carboxamide, is a novel RNA-dependent RNA polymerase (RdRp) inhibitor class broad-spectrum antiviral drug, It itself has no antiviral activity, and can be rapidly converted into the form of favipiravir nucleoside triphosphate through metabolism in the body, and competitively inhibits RNA polymerase dependent on viral RNA by simulating guanosine triphosphate (GTP), inhibiting viral genome replication and Transcription to play an antiviral effect, the form of favipiravir nucleoside triphosphate can also penetrate into the viral gene, and play an antiviral effect by inducing fatal mutations. Favipiravir has a good therapeutic effect on type A influenza (including avian influenza and influenza A H1N1 infection) vir...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C07D241/24
CPCC07D241/24
Inventor 王凯孙新宇姚思杨芳吴风收周霁张秀兰
Owner WUHAN INSTITUTE OF TECHNOLOGY
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