Abstract
New analogs of amino acid-conjugated bile acids were synthesized in which the amide bond was reversed from its normal configuration. These structural isomers of the beta-alanyl conjugates of cholic acid and ursodeoxycholic acid were synthesized by reaction of succinic anhydride with the 24-nor-23-amine derivatives of cholic acid and ursodeoxycholic acid. The chemical and physical properties of these reverse amide conjugated bile acid analogs were compared with those of the normal glycine and beta-alanine conjugates. The reverse amide analogs comigrated with their isomeric beta-alanine conjugates during thin-layer chromatography using a variety of solvent systems. However, the isomeric pairs could be resolved by reversed-phase high performance liquid chromatography, with the reverse amides having greater retention times compared to the beta-alanine conjugates. Critical micelle concentrations, solubility of undissociated forms, and acid dissociation constants were similar for the isomeric pairs. Significant differences in melting points were observed, however, While the isomeric pairs showed no significant differences in sensitivity to base hydrolysis, the reverse amides were not hydrolyzed by the cholylglycine hydrolase from Clostridium perfringens, even after long incubation periods.
Highlights
S confiPraTthieosenst.ructural isomers Of the conjugates of cholic acid and ursodeoxycholic acid were synthesized by reaction of succinic anhydride with the 24-nor-23-amine derivativesof cholic acid and umodeoxvcholic acid
In competition with these transport sites for conjugated bile acid (CBA) substrate are bacteria normally found in the digestive tract which are capable of hydrolyzing the CBAs to the corresponding free bile acids (FBAs) and amino acids
C z 3and Cz4amines and amine derivatives and the consequent reduction in the influence exerted by have appeared in a variety of reports [30,31,32,33,34,35], this is the the amide bond on the dissociation of the carboxyl group
Summary
S confiPraTthieosenst.ructural isomers Of the conjugates of cholic acid and ursodeoxycholic acid were synthesized by reaction of succinic anhydride with the 24-nor-23-amine derivativesof cholic acid and umodeoxvcholic acid. Modifications of the side chain of conjugated bile acids (or analogs) can be made to prevent the amide bond hydrolysis which generates the free Cp4-carboxyl group.
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