Convenient non-chromatographic assays for the microbial deconjugation and 7alpha-OH bioconversion of taurocholate

Abstract

We described two convenient assay methods to estimate bile acid deconjugation and bile acid bioconversion at the 7alpha-OH position by individual microorganisms grown in media containing taurocholic acid. The methods are based on (i) a selective chemical assay for taurine conjugates previously described and (ii) the use of a cell-free preparation of 7alpha-hydroxysteroid dehydrogenase from Escherichia coli to directly quantify 7alpha-OH groups. These non-chromatographic approaches have been applied to the study of three model strains of intestinal organisms, E. coli, Bacteroides fragilis, and Clostridium perfringens, grown in standard media in the presence of purified tritiated taurocholate. Assay results were confirmed by thin-layer chromatography solvent systems designed to separate conjugated from unconjugated bile acid and unmodified cholic acid nucleus from 7alpha-OH bioconversion product(s) (primarily 3alpha, 12alpha dihydroxy, 7-keto-cholanoic acid). In addition, 7alpha-hydroxysteroid dehydrogenase activity was demonstrated in cell-free extracts of all three organisms. Of the three organisms, only C. perfringens was demonstrated to (i) deconjugate taurocholic acid, (ii) contain 3alpha-hydroxysteroid dehydrogenase activity, (iii) convert cholic acid into at least five labeled metabolites visible on thin-layer chromatography, and (iv) catalyze significant tritium exchange with water in the medium.