前苏联专利SU1039439A3 Process for preparing 2-(3-phenoxyphenyl)-proprionic acid or its calcium salt

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专利摘要:
2-(3-phenoxy-phenyl)-propionic acid or its pharmaceutical treatments, are prepared by hydrolyzing and partially decarboxylating <IMAGE> wherein R=C1-C6 alkyl or amino, the latter compounds being themselves new and, where R=C1-C6 alkyl, have antiinflammatory pharmaceutical properties.
公开号:SU1039439A3
申请号:SU792860205
申请日:1979-12-28
公开日:1983-08-30
发明作者:Палоши Эндре；Хейа Гергель；Карбонитш Деже；Кишш Пал；Генци Чаба；Чер Юдит；Свобода Ида；Сабо Габор；Каллай Тамаш；Ледницки Ласло；Сомор Мария
申请人:Хиноин Дьедьсер-Еш Ведьесети Термекек Дьяра Рт (Инопредприятие)；
IPC主号:

专利说明:

The invention relates to an improved method for producing derivatives of propionic acid and its salts, and more specifically to a method for producing 2- (3-phenoxyphenyl) -propionic acid or its calcium salt of general formula (i) where m 1, when K H, when R Ca that are used in medicine as medicinal substances. Known methods for the preparation of compounds of general formula (1), according to which phenoxyphenylmagnesium bromide is reacted with 2-bromopropionic acid sodium salt in diethyl i-1 or 1-propynyl-3-phenoxybenzene, and reacted with phenoxyphenylpropionic acid aldehyde using oxiohydroxylate with oxiohydroxychloride. The disadvantage of these methods is the use of expensive starting compounds. . In addition, in these methods it is necessary to further purify the product, which causes a number of problems in industrial conditions, since the target product has a rather high boiling point (168, 11 mm Hg). Additional purification of 2- (3-phenoxyphenyl) propionic acid is necessary because the resulting intermediate products, due to their high boiling point, can also be difficult to clean. At present, in the pharmaceutical industry, the purity of the basic active ingredient is essential. by requirement. The closest to the proposed technical essence and the achieved effect is a method of obtaining compounds of the general formula (1 co-sryl) is that 2- (phenoxiphenyl-3-propionitrile is treated with sodium hydroxide in a mixture of water and ethanol at boiling 33. Output 84 The nitrile used as the starting material is obtained due to the fact that m-phenoxycetophenone is methylated, reduced with sodium borohydride, and the resulting "6-methyl-3-phenoxybenzyl alcohol is halogenated with phosphorus tribromide to form ,; o (, - methyl-3-phenoxybenzyl bromide and injected into interaction with cyanide on ry in anhydrous dimethyl with lofoxide. The sequence of operations is as follows; enz-d., (oyo4oH-tP (JH-OH YH3 ((ju- ciN YNs Ne. Obtaining the final product of appropriate purity is difficult to obtain, since a purification phase is required, requiring a large amount of energy, due to the fact that the intermediate products are high-boiling liquids, and as a result of this reaction path a homogeneous product is not always obtained. In addition, an anhydrous state and relatively expensive phosphorus tribromide are necessary for the third stage of the reaction (see scheme). The preparation of m-hydroxy acetophenone, which is used as a starting compound on an industrial scale, is also too complex. The purpose of the invention is to simplify the process. The goal is achieved by the use of a compound of the general formula (II) as a diphenyl ether derivative, where, CjHfO, NH ,. The yield is 86.5-98.5%. The compound of general formula (II) is obtained by reacting) L-phenoxybenzyl cyanide in the presence of a basic catalyst with a dialkyl carbonate with 1-2 carbon atoms and methylation of 2-cyano-2- (3-phenoxyphenyl) acetic acid alkyl ester with 1-2 carbon atoms in the alkyl part. The compound of the general formula (II) thus obtained, which contains an alkoxy group with 1 to 2 carbon atoms as R, is introduced into interaction with a compound suitable for the introduction of amino groups, preferably ammonia. The sequence of operations is the following rorTaT: (grigi5f (gbg ° tbgE where Y is the cleavable group — C1, Br, OSOj, Alkyl. M-phenoxybeneyl cyanide is brought into contact with diethyl carbonate when heated in anhydrous organic solvent, mainly in lower alcohols, in ethanol, in the presence of equimolar amounts of an alkali metal alcoholate, mainly sodium ethylate, with continuous azeotropic distillation of alcohol. The synthesis is carried out in a homogeneous solution and 1-2.5 mol of diethyl carbonate are preferably used per 1 mol mol-fen hydroxybenzylcyanide. The 2-cya anoxy (3-phenoxyphenyl) -acetic acid alkyl ester obtained with 1-2 atoms of “1 carbon” in the alkyl part is recovered or treated with methylating agent. As a methylating agent, dimethyl sulphate or methyl iodide. The methylating agent is used in an excess of 5-100%. If the isolated ester is used as the starting material, it is dissolved mainly in an equimolar amount of sodium ethylate in anhydrous ethanol and heated with the corresponding the amount of methylation agent. A compound of the formula (ll) j in which R is an alkoxy group with 1 to 2 carbon atoms, is added or, preferably, without isolation, to obtain an amide, 2 cyano-2t- (3-pheny, syphenyl) propionic acid is introduced into the reaction with ammonia solution. In this case, organic solvents are used as solvents, preferably alcohols, preferably methanol or ethanol. The method can be carried out simply if the 2-cyano- (3-phenoxyphenyl) -propionic acid alkyl ester is dissolved in an ammonia containing solvent. The reaction is carried out with or without heating. You can work at a reaction temperature of 0-150 s, preferably 20-100 ° C. The compound of general formula (II), which is isolated and purified or left in solution, is hydrolyzed predominantly in water or in a mixture consisting of water and an organic solvent, in the presence of a base or acid. Mineral acids, for example sulfuric or hydrochloric acid, inorganic bases, for example alkali metal and alkaline earth metal hydroxides, or organic bases and acids can be used. The reaction can be accelerated by heating. The hydrolysis and partial decarboxylation of the compound of the general formula (II) is preferably carried out in a hydroalcoholic C. 2 solution by heating. After distilling off the excess alcohol and acidifying it, 2- (3-phenoxyphenyl) -propionic acid is obtained. The proposed method is based on: The use of a product that is readily available from benzaldehyde as a starting compound and individual reaction steps in large-scale production can be easily carried out. One of the new intermediates, amide-2- (3-phenoxyphenyl) -propionic acid, is a crystalline solid product, the simple purification of which eliminates the disadvantages of the prototype. In addition, a homogeneous product is obtained at each reaction stage. Example 1. A mixture of 189 g of I-phenoxybenzaldehyde and 1 liter of a 1 M solution of aluminum isopropyl in isopropyl alcohol with stirring was distilled on a column until it was detected in the distillation with 2,4-dinitrophenylhydrazine acetone. This takes about 2 to 3 hours. The distillation rate is adjusted in such a way that approximately 200 ml of distillate is formed during this time. Excess isopropyl alcohol is distilled off in vacuo. 500 g of ice and 550 ml of 20% aqueous hydrochloric acid are added to the residue. The separated oil is shaken twice with benzene, 1 L each time, and the benzene solution is dried over sodium sulfate. After distillation of β-benzene, 195 g (97.4%) of M-phenoxane benzyl alcohol is obtained, the purity of which exceeds 95% (determined by chromatography). Example 2 To a solution of 200 g of α-Noxibenzyl alcohol in 1 liter of absolute chloroform was added 2 ml of pyridine and with stirring and cooling until a solution of 142.8 g of thionyl chloride in 150 ml of chloroform was added dropwise with ice water. . After the addition, the mixture is no longer cooled and, with stirring, the solution is allowed to warm to room temperature, stirred at this temperature until the intense evolution of gas ceases. The mixtures are then boiled with stirring until gas evolution ceases at all. The solution is poured into 2 liters of water, the chloroform phase is separated, and 400 ml of chloroform is extracted into the aqueous phase. The combined chloroform solutions are washed once with water and dried over sodium sulfate. The drying accelerator is filtered off and distilled with chloroform. 210 g are obtained (96% of 1m phenylene sibenzyl chloride, which is distilled at 0.3 mm Hg at 128-130 ° C. Virtually no first run and residue. Example Z. To a solution of 218 g of Vv-phenoxybenzyl chloride in 350 m of 96% ethyl alcohol added a solution of 57.8 g of sodium cyanide to 100 ml of water, and the reaction mixture was boiled with stirring until no starting material was detected by thin layer chromatography. the mixture is poured into 1 l of water. After extracting the oil, the oil is extracted three times each time 500 ml. The combined benzene solutions are washed with 1 liter of water, dried over sodium sulfate. After filtering off the accelerating agent and distilling off the benzene, 190 g (91%) of M-phenoxybenzyl cyanide are obtained. Purity of the product is more than 90% (determined by chromatography). Boiling point 138 ° C at 0.2 mm Hg. Example 4. To a solution of 23 g of sodium in 500 ml of anhydrous ethyl alcohol was added 209 g of M-phenoxybenzyl cyanide and 260 g of diethyl carbonate. . The reaction mixture is stirred and boiled for 2.5 hours, after which the mixture is poured into 3.5 liters of water and acidified with 58 ml of acetic acid. The separated oil is shaken with dvigkds with chloroform, 500 ml each time. The combined chloroform solutions, after drying over sodium sulfate, are concentrated. The residual 2-(3-phenoxyphenyl) -2-cyanoacetic acid ethyl ester in the form of an oil is distilled under vacuum. Boiling point 187-192 ° C at 0.2 mm Hg, P 1.5568. Further, they act as described above, but instead of diethyl carbonate, 183 g of dimethyl carbonate are used, methyl (3-phenoxyphenyl) -cyanoacetic acid methyl ester is obtained. Yield 74%, boiling point 173 at 0.2 mm Hg. ,, 5015. EXAMPLE 5 To a solution of 23 g of sodium in 500 ml of anhydrous ethyl alcohol, m-phenoxybenzyl cyanide and 260 g of diethyl carbonate are added. With stirring, the reaction mixture is boiled for 3 hours, after cooling, 126 g of dimethyl sulfate are added dropwise to the mixture in small portions and boiled with stirring for an additional 5 hours. Most of the alcohol is distilled and the residue is mixed with 3 liters of water. Isolated in the form. 2- (3-phenoxyphenyl) -2-cyanopropionic acid ethyl ester is extracted three times with benzene, 500 ml each time. The benzene solutions are dried over sodium sulfate and concentrated in vacuo. 250 ml of methanol / containing 15% ammonia are poured onto the residue, and the mixture is incubated for 3 hours in a refractory tube at 90-100 ° C. The reaction mixture is further processed and 220 g (92.5%) of 2- (3-phenoxyphenyl) amide are prepared and poured. -2-cyanopropionic acid. Melting point 128-130 ° C. Example 6. A solution of 90 g of 2- (3-phenoxyphenyl) -2-cyanopropionic acid ethyl ester in 90 ml of methanol containing 15% ammonia is stirred in a refractory tube at 90-100 ° C for 3 hours. using thin layer chromatography to monitor the original substance. The solution is cooled, the precipitated crystals are sucked off and dried. 69 g (85%) of 2-Cz-phenoxyphenyl} -2-cyanopropionic acid amide are obtained, which melt at 128-130 ° C. After concentrating the urine solution, another 11 g of product is obtained, which melts at 123-125 ° C. Overall Yield 98.5%. After recrystallization from 50% aqueous ethyl alcohol, the product melts at 134-135 ° C. Calculated, 5: C 72, 5.26; N 10.52 YabN / gM Found: C Y, 88JH 5.40 10, 43 NMR spectrum in CHSEC: 1.9 ppm methyl group, 3N; 6.15 pfw NH 2H; 6.7 - 7.5 ppm aromatic protons 9H. The effect is as described above, but 86 g of 2- (3-phenoxyphenyl) -2-cyanopropionic methyl ester is used as the starting material. acids and get with | MFA 2-fz-phenoxyphenyl) -2-cyanopropionic acid. Melting point 128-125 ° C. Example. The operation is analogous to Example 6, but instead of heating, the reaction mixture is left to stand in a closed reactor for 48 hours at room temperature. 78 g a: mida 2- (3-phenoxyphenyl) -2-cyanopropionic acid is obtained from 90 g of ethyl ester 2- (3-phenox, syphenyl} -2-cyanopropionic acid 2- (3-phenoxyphenyl) -2-cyano- ethyl propionic acid ester has a melting point of 128-130 ° C, yield 96%. Calculated: C 72.16; H 5, 26; N 10.5 s (Found;% C 71.81; H 5, 18; 10,15 Example 8. A mixture of 106.4 amide 2- (3-phenoxyfennl) -2-cyanopropionic acid, 200 MP 40% aqueous sodium hydroxide and 400 Mii of ethanol is boiled under stirring for 2.0 hours. From the reaction mixture, the distillation path alcohol and the residue are removed. 200 ml. of water. The aqueous solution is acidified with concentrated hydrochloric acid and the pH is set to 1. The separated oil is extracted three times with benzene, 500 ml each time. The benzene solution is concentrated after drying over sodium sulfate. , 5%) of 2- (3-pheno-siphenyl) -propionic acid, which is suitable for salt formation without further purification. Calculated,%: C 74.36, H 5.82 Ci5H, 4 0 $ Found 9,%; C, 74.27; H 5.75 NMR spectrum in COCI): 1.35% methyl (3N); 3.70% CH. (IH), 8.4 - 6.0%: arMatonic protons (9H). Example 9 90 g of crude 2- (3-phenoxyphenyl) propionic acid prepared in Example 8 were dissolved in 740 ml of a 0.5% sodium hydroxide solution. The pH of the solution is 8-9. The solution is treated with activated carbon. 370 ml of alcohol is added and the solution is heated to. At this temperature, under vigorous stirring, 100 ml of a 2M aqueous solution of calcium chloride are added dropwise over 30 minutes. The solution containing the crystalline precipitate is allowed to cool to room temperature over 2 hours with stirring. Then the solution is left to stand in ice water for a few more hours, the white crystals are sucked off and washed twice, each time with a 30% aqueous solution of alcohol, 100 ml each time and dried in air. 90 g (86.5%) of the calcium salt of 2- (3-phenoxyphenyl) -propionic acid are obtained. Melting point 115-120 ° C. Calculated: C64.49; H 5.41; Ca7.17 O Ca 2H2O; Found: C 64, 5.49 jCa 7.15 Water content determined by Karl Fisher method Calculated: 6, 45% water. Found: 6, 35% water. Example 10. To a solution of 8.85 g of sodium in 175 mp of anhydrous alcohol was added 108.5 g of 2- (3-phenoxyphenyl) ethyl ester. -2-cyanoacetic acid and portions of 48.7 Gdimethyl sulfate. The reaction mixture is stirred at room temperature until the exothermic reaction stops and then boiled for 5 hours. After cooling the stages, the reaction mixture is poured into 2 liters of water and the separated oil is extracted three times with chloroform, 250 ml each time. The combined chloroform solutions are washed with water and dried over sodium sulfate. After evaporation of chloroform, 2- (3-phenoxyphenyl) -2-cyanopropionic acid ethyl ester remains, which is distilled in vacuo. Melting point 155-157 ° C at 0.05 mmHg, tll 1.5490. Yield 98% (86%). Calculated,%; C 73.20 JH 5.80, 4.74 C H O Found,%: C 73.3b; n 5.55, N 4.60 Operate as indicated above, but 103 g of methyl ester (m-phenoxyphenyl) -cyanoacetic acid and get methyl ester 2- (3-phenoxyphenyl) -2-cyanopropionic acid. Melting point 174 ° C at 0.1 mm Hg, yield 82.5%, hl 1.5520. Calculated,%: C 72.58lH, 5.37; N 4.98 C, 7H, 5 N O Found,%: C 72.06, H 5.66; N4.97. Example 1. To a solution of 118 g of 2- (3-phenoxyphenyl} -2-cyanopropionic acid ethyl ester in 226 ml of ethanol, a solution of 226 mp of lON sodium hydroxide was added and the reaction mixture was stirred while stirring until it stopped gas evolution. Then the alcohol is distilled off. The residue is dissolved in water. The pH of the solution is set equal to 1 to the concentrated hydrochloric acid. The separated oil is extracted twice with 100 ml of benzene. The combined benzene solutions are dried over sodium sulfate and concentrated 2- (3-phenoxy nyl) -propionic acid is distilled in vacuum. Melting point 1b8-171 ° C at 0.1 mm Hg.
Yield 92.8 g, (9b% from ethyl ester).
Calculated,%: C 74.36, H 5.82 C | H | 40z
Found,%: C 74.29; H 5.72. NM; P-spectrum in OS C: 1.35% methyl (3N); 3.70% CH (1H); 8.4 - b, 0% aromatic protons (9H).
The procedure is the same as in Example 10, but 113 g of 2- 3-phenoxyphenyl) -2-cyanopropionic acid methyl ester is used to obtain 2- (3-phenoxyphenyl) -propionic acid with the same physical properties.
Yield 93.5 g, 96% (from methyl ester).
Calculated,%: C, 74.36; H 5.82 С | 5Н | 40з
Found,%: C 74.01; H 5.65
NMR spectrum in SOSI: 1.35% methyl (3N); 3.70% CH (, 8.4 - 6.0% aromatic protons (9H).
Example 12. The procedure is carried out as in Example 2 / but 88 g of methyl iodide are used instead of dimethyl sulfate. The product is identical to the product obtained according to example 10. Get 2- (3-phenoxyphenyl) -2-cyano methyl ester of propionic acid. Melting point 155-157 ° at 0.55 mm Hg. st ..
nl
1,5491. Output 100 g, 88% ..
You,%: C 73, 20; n 5.80; W 4, 74
CigHnN.O-.,
Found: C, 73.25; H, 5.60 / N4.69. Example 13. To a solution of 23 g of sodium in 500 ml of anhydrous alcohol was added 209 gm phenoxybenzyl cyanide and 145 g diethyl carbonate. The reaction mixture was boiled with stirring for 2.5 hours, after cooling in small portions 126 g of methyl sulfate was added and the mixture was boiled with stirring for another 5 hours. Another 500 ml of 10 N sodium hydroxide solution was added and boiled under stirring until gas evolution ceases. At the end of the reaction, the alcohol is distilled off and the residue is dissolved in water. The pH of the solution was adjusted to 1 with concentrated hydrochloric acid. The separated oil was treated with 500 ml of benzene. The benzene solution after drying. The sodium hydrogen sulfate is concentrated and the remaining 2- (3-phenoxyphenyl) propionic acid is distilled. Melting point 168-171 s at 0.1 st. Yield 206 g (85%).
Calculated,%: C, 74.36; H 5.82 С | Н140з
Found,%: C 74.10; H 5.52 NMR in soybean C: 1.35% methyl (sign); 3.70% CH (iH); 8.4 - b,%
aromatic protons (9H).
Thus, the proposed method allows to simplify the process by eliminating the stage of purification of the target product.

权利要求:
Claims (1)
[1]
METHOD FOR PRODUCING 2- (3-PHENOXYPHENYL) -PROPIONIC ACID OR ITS CALCIUM SALT of the general formula where 1 "1, when R = П, P = 2, when R = Ca, by treating the diphenyl ether derivative with sodium hydroxide in a mixture of water and ethanol with boiling the reaction mixture followed by isolation of the target product in the form of an acid or its calcium salt, characterized in that, in order to simplify the process, a compound of the general formula 3 ^{Ne is} used as a diphenyl ether derivative
KL. hLb where 1 (- SNue, CjHjO, NH ^. Priority by signs:
12/29/78 at CH ABOUT; C, HgO. .
10/25/79 at R, ~ ΝΗ ^.
-SU <,, 1039439
The sequence of operations is as follows;

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法律状态:

优先权:

申请号 | 申请日 | 专利标题

HUCI001894|1978-12-29|

HUCI001979|HU181672B|1979-10-25|1979-10-25|Process for producing 2-bracket-3-phenoxy-phenyl-bracket closed-propionic acid and salts through a new intermediate compound|

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