Lithocholic acid microbial hydroxylation

Bile acids within the enterohepatic circulation that undergo absorption in the terminal ileum encounter a relatively low number of species and population of bacteria and return to the liver in portal blood relatively unchanged. However, the approximately 5% of the bile-acid pool that enters the colon provides substrate for the extensive microbial population that deconjugate and oxidise hydroxyl groups leading to formation of the secondary bile acids deoxycholic and lithocholic acids that are the major bile acids in faeces. 

The intestinal microflora of man and animals can biotransform bile acids into a number of different metabolites. Normal human feces may contain more than 20 different bile acids which have been formed from the primary bile acids, cholic acid and chenodeoxycholic acid [1-5], Known microbial biotransformations of these bile acids include the hydrolysis of bile acid conjugates yielding free bile acids, oxidation of hydroxyl groups at C-3, C-6, C-7 and C-12 and reduction of oxo groups to give epimeric hydroxy bile acids. In addition, certain members of the intestinal microflora la- and 7j8-dehydroxylate primary bile acids yielding deoxycholic acid and lithocholic acid (Fig. 1). Moreover, 3-sulfated bile acids are converted into a variety of different metabolites by the intestinal microflora [6,7]. 

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