DE2103749A1 - 3-acyl-acrylic acids prepn - from a ketone and glyoxylic acid (deriv) - Google Patents

Abstract

3-Acyl-acrylic acids of formula (I):- (in which A is aryl or heteroaryl opt. substd. by lower alkyl; R1 and R2 same or different, are H, lower alkyl, opt. substd. aroyl, halogen, NO2, acetylamino, CN, carbamoyl opt. substd. by one or more alkyl, carboalkoxy, OH, alkoxy, alkylthio, or alkylsulphenyl, or one of R1 and R2 may be cycloalkyl or cycloalkenyl opt. substd. by CN or alkyl, allyloxy, dialkylaminoalkyl, heteroaryl opt. hydrated, aryl opt. substd. by lower alkyl, halogen, NO2, acetylamino, CN, carbamoyl which may be substd. by one or more alkyl, carboalkoxy, OH, alkoxy, alkylthio or alkylsulphenyl, and R3 is H or lower alkyl) comprises reacting a ketone of formula (II): with a glyoxylic acid or its deriv. of formula (III): (in which R4 is H or lower alkyl; R5 and R6, same or different, are H, lower alkyl, or together form alkylene) in presence of acid condensation agent at 50 - 200 degrees C. Cpds. (I) are inters. for antiinflammatory and antitussive crotonic acid cpds.

Description

Process for the production of new 3-acyl-acrylic acid addition to the DBP .... (patent application PP 20 47 806.2j7 12, (21 (67, 17 @ Im DBP ....... (file number PP 20 47 806.2) For the first time a generally applicable one-step process for the preparation of 3-acyl-acrylic acids was described It has now been found that the 3-acyl-acrylic acids not previously described have the general formula in which an alkyl radical, a cycloalkyl cycloalkenyl radical optionally substituted by a cyang group or a lower alkyl radical, and R2 a halogen atom, a nitro or lower alkoxy group, if R1 is a cycloalkenyl or a cycloalkyl radical substituted by a cyano group, also a hydrogen atom mean to have made by the same process.

The present application thus relates to the ne-3-acyl-acrylic acids of the above general formula I, which are valuable intermediates, in particular for the production of pharmaceuticals. These can be produced by the following process: Implementation of a ketone of the general formula in which R1 and R2 are as defined at the outset, with glyoxylic acid or a derivative of the general formula in which R3 is a hydrogen atom or a lower alkyl radical, R4 and R5, which may be the same or different, hydrogen atoms or lower alkyl radicals, or the radicals R4 and R zuW mean an alkylene radical, in the presence of an acidic condensation agent.

The reaction is carried out in the presence of an acidic condensing agent expediently with a small excess of glyoxylic acid or a derivative of the general formula III preferably fl a solvent, for. B. in dioxane, Ethylene glycol dimethyl ether or diethylene glycol dimethyl ether, and for example at temperatures between 500 and 2000C, preferably at 800-420 ° C carried out. Inorganic or organic acids are suitable as acidic condensing agents, for example formic acid, acetic acid, propionic acid, oxalic acid, trifluoroacetic acid, -phatic or aromatic sulphonic acids, phosphoric acid, peroclonic acid, sulfuric acid or hydrochloric acid; here the condensation agent itself can serve as a solvent.

If R3 is a lower alkyl radical, the reaction is preferred in a lower aliphatic carboxylic acid as solvent, e.g. B. in formic acid or acetic acid, and in the presence of a strong acid, e.g. B. of p-toluenesulfonic acid, carried out; during the implementation, transesterification occurs at the same time.

However, the implementation can also be carried out on the water separator, e.g. B. in xylene and in the presence of p-toluenesulfonic acid.

It is also advantageous if the course of the reaction is carried out by thin-layer chromatography is pursued. The reaction is complete when the intermediate α-hydroxy-γ-oxobutyric acid is formed can no longer be proven.

The compounds of general formula 1 obtained can then if desired into their salts with inorganic or tertiary organic bases be transferred.

The ketones of general sleeve II used as starting materials are partly known from the literature or can be prepared by known processes will. For example, the following ketones, some of which are new, have the general formula II prepared: 4'-Cyclohexyl-3'-fluoro-acetophenone, melting point: 41-42 ° C 3'-chloro-4'-cyclohexyl-acetophenone, B.p. 1.5: 135-139 ° C 3'-bromo-4'-cyclohexyl-acetophenone, b.p. 0.15: 135-138 ° C 4'-cyclohexyl-3'-methoxy-acetophenone, Melting point: 69-70 ° C 3'-chloro-4'-cyclopentyl-acetophenone, boiling point 0.2: 134-1400C 3'-chloro-4'-cycloheptyl-acetophenone, Bp 0.1: 136-179 ° C 4 '- (1-Cyclohexen-1-yl) -acetophenone, melting point: 75-76 ° C 4'-cyclohexyl-3'-nitro-acetophenone, Melting point: 64-65 ° C 4 '- (1-cyano-1-cyclohexyl) -acetophenone, b.p. 0.1: 156-158 ° C 3'-chloro-4' - (1-methyl-1-cyclohexyl) -acetophenone , Bp 0.35: 137-140 ° C 4'-Isopropyl-3'-nitro-acetophenone, melting point: 47-480C As already mentioned at the beginning, represent the new compounds of the general formula I valuable intermediates for the manufacture of Pharmaceutica with anti-inflammatory and antitussive efficacy, especially for the production of the e. ~ speaking 4-hydroxy-crotonic acids. The properties of these compounds are therefore in the intrinsic to new intermediates.

The following examples are intended to explain the invention in more detail: Example 1 3- (3-Chloro-4-cyclohexyl-benzoyl) -acrylic acid 134.0 g (0.566 mol) 3'-chloro-4) cyclohexyl-acetophenone 55.0 g (0.598 mol) of glyoxylic acid hydrate are added to 700 ml of formic acid and refluxed. After 24 hours, a further 5.5 g (0.06 mol) of glyoxylic acid hydrate are added and cooks again for 24 hours. After this time is the one that occurs as an intermediate stage ß- (3-chloro-4-cyclohexyl-benzoyl) -α-hydroxy-propionic acid by double-layer chromatography no longer to be proven. It is allowed to cool, stirred into 3 l of ice water and taken the deposited product in ethyl acetate. One washes the organic Phase once with water, dry it over sodium sulfate, filter and evaporate in the Vacuum a. The residue crystallizes on trituration with petroleum ether / cyclohexane (1: 1). The crystals are suction filtered and made from a mixture of benzene / cyclohexane (1: 5) recrystallized. 40.3 g of pale yellow crystals with a melting point of 112-113 ° C. are obtained.

Similar results are obtained when using acetic acid, propionic acid, 85% phosphoric acid in the presence of dioxane as solvent, more concentrated Hydrochloric acid / dioxane, 80% strength acid / dioxane or oxalic acid / dioxane as condensation agents.

Example 2 3- (3-chloro-4-cyclohexyl-benzoyl) acrylic acid The mixture from 47.35 g (0.20 mol) 3'-chloro-41-cyclohexylacetophenone, 26.8 g (0.20 mol) dimethoxy-acetic acid methyl ester, 200 ml of formic acid and 0.3 ml of concentrated sulfuric acid are heated to the boil, so that the methyl formate formed is passed through a 30 cm long Vigreux column slowly distilled off with as little formic acid as possible. After 8 hours you give 13.4 g (0.10 mol) of methyl dimethoxyacetate are added and more is heated 12 hours. The reaction mixture is then stirred into 1 l of ice water extracted the product obtained with a total of 500 ml of a mixture of the same Share ethyl acetate and benzene. The organic phase is separated off and dried over sodium sulfate and filtered through 300 g of silica gel.

The solvent is removed in vacuo and the residue obtained recrystallized from benzene / cyclohexane (1: 5).

Yield: 10.74 g Melting point: 111-1130C Analogously to Examples 1-2 the following compounds were produced: 3- (4-Cyclohexyl-3-fluoro-benzoyl) acrylic acid Melting point: 111-112 ° C (from cyclohexane) 3- (3-bromo-4-cyclohexyl-benzoyl) acrylic acid Melting point: 120-121 ° C. (from cyclohexane using activated carbon) 3- (4-cyclohexyl-3-methoxy-benzoyl) acrylic acid Melting point: 160-161 ° C (from benzene) 3- (3-chloro-4-cyclohexyl-benzoyl) acrylic acid Melting point: 127-128 ° C (from cyclohexane) 3- (3-chloro-4-cyclohexylbenzoyl) acrylic acid yellow oil, IR spectrum: C = O band at 1710 and 1675 cm 1, C = C band at 1600 cm 1 3- [4- (1-Cyclohexen-1-yl) -benzoyl] -acrylic acid Melting point: 150-153 ° C 3- [4- (1-Cyano-cyclohexyl) -benzoyl] -acrylic acid yellow, viscous oil; IR spectrum: C = O band at 1705 and 1670 cm 1 C = C band at 1600 cm 3- [3-chloro-4- (1-methyl-cyclohexyl) -benzoyl] -acrylic acid. Melting point: 167-1690C (from ethyl acetate) 3- (4-Cyclohexyl-3-nitro-benzoyl) acrylic acid Melting point: 158-1600C (from carbon tetrachloride) 3- (4-isopropyl-3-nitro-benzoyl) acrylic acid Melting point: 155-156 ° C (from ethyl acetate)

Claims (6)

P atent claims 1. Process for the preparation of new 3-acyl-acrylic acids of the general formula in which R1 is an alkyl radical, a cycloalkyl or cycloalkenyl radical optionally substituted by a cyano group or a lower alkyl radical and R2 is a halogen atom, a nitro or lower alkoxy group or, if R1 is a cycloalkenyl or a cycloalkyl radical substituted by a cyano group, also a hydrogen atom mean, as well as their salts with inorganic or tertiary organic bases according to DBP ......... (File number P 20 47 806.2), characterized in that a ketone of the general formula in which R1 and R2 are as defined at the outset, with glyoxylic acid or a derivative of the general formula in which R3 is a hydrogen atom or a lower alkyl radical, R4 and R5, which may be the same or different, hydrogen atoms or lower alkyl radicals or the radicals R4 and R together 5 are an alkylene radical, is reacted in the presence of an acidic condensing agent at temperatures between 500 and 2000C and, if desired, the compound of the general formula I obtained is then converted into its salt with an inorganic or tertiary organic base. 2. The method according to claim 1, characterized in that the implementation is carried out in a solvent. 3. The method according to claim 1, characterized in that the condensation agent an inorganic or organic acid is used. 4. The method according to claim 1, 2 and 3, characterized in that an aliphatic carboxylic acid is used as the solvent if R4 is lower Means alkyl radical. 5. The method according to claim 1, 2, 3 and 4, characterized in that that the reaction is carried out at temperatures between 800 and 1200C. 6. New 3-acyl-aryl acids of the general formula I. in which R1 is an alkyl radical, a cycloalkyl or cycloalkenyl radical optionally substituted by a cyano group or a lower alkyl radical and R2 is a halogen atom, a nitro or lower alkoxy group or, if R1 is a cycloalkenyl or a cycloalkyl radical substituted by a cyano group, also a hydrogen atom mean and their salts with inorganic or tertiary organic bases.