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Formation of bile acid glucosides by a sugar nucleotide-independent glucosyltransferase isolated from human liver microsomes.
Authors:H Matern   S Matern     W Gerok
Abstract:A heat-labile protein has been detected in microsomes from human liver which catalyzes the formation of glucosides of the bile acids chenodeoxycholic, deoxycholic, and ursodeoxycholic acids. This glucosyltransferase activity has been purified about 900-fold from human liver microsomes, resulting in homogeneity as determined by sodium dodecyl sulfate gel electrophoresis. The subunit molecular weight was calculated to be about 56,000. The enzyme was separated from bile acid UDP-glucuronosyltransferase [UDP-glucuronate beta-D-glucuronosyltransferase (acceptor-unspecific), EC 2.4.1.17] during purification and does not catalyze the formation of bile acid glucuronides. The purified glucosyltransferase utilizes lipophilic alkyl beta-D-glucopyranosides as artificial donor substrates and dolichyl phosphoglucose as natural donor for the transfer of glucose to bile acids and does not exhibit bile acid conjugating activity in the presence of sugar nucleotides such as UDP-glucose. The apparent Km values estimated for various alkyl beta-D-glucopyranosides decreased with increasing alkyl chain length from 680 X 10(-6) M for hexyl beta-D-glucopyranoside to 20 X 10(-6) M as estimated for decyl and dodecyl beta-D-glucopyranoside. The results suggest that a glucoside-conjugation pathway of bile acids exists in humans. This conjugation is catalyzed by a sugar nucleotide-independent glucosyltransferase and is therefore distinct from the known mechanisms of glycoside conjugation.
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