Abstract
Formation of bile acids from sitosterol in bile-fistulated female Wistar rats was studied with use of 4-14C-labeled sitosterol and sitosterol labeled with 3H in specific positions. The major part (about 75%) of the 14C radioactivity recovered as bile acids in bile after intravenous administration of [4-14C]sitosterol was found to be considerably more polar than cholic acid, and only trace amounts of radioactivity had chromatographic properties similar to those of cholic acid and chenodeoxycholic acid. It was shown that polar metabolites were formed by intermediate oxidation of the 3 beta-hydroxyl group (loss of 3H from 3 alpha-3H-labeled sitosterol) and that the most polar fraction did not contain a hydroxyl group at C7 (retention of 3H in 7 alpha,7 beta-3H2-labeled sitosterol). Furthermore, the polar metabolites had lost at least the terminal 6 or 7 carbon atoms of the side chain (loss of 3H from 22,23-3H2- and 24,28-3H2-labeled sitosterol). Experiments with 3H-labeled 7 alpha-hydroxysitosterol and 4-14C-labeled 26-hydroxysitosterol showed that none of these compounds was an efficient precursor to the polar metabolites. By analysis of purified most polar products of [4-14C] sitosterol by radio-gas chromatography and the same products of 7 alpha,7 beta-[2H2]sitosterol by combined gas chromatography-mass spectrometry, two major metabolites could be identified as C21 bile acids. One metabolite had three hydroxyl groups (3 alpha, 15, and unknown), and one had two hydroxyl groups (3 alpha, 15) and one keto group. Considerably less C21 bile acids were formed from [4-14C]sitosterol in male than in female Wistar rats. The C21 bile acids formed in male rats did not contain a 15-hydroxyl group. Conversion of a [4-14C]sitosterol into C21 bile acids did also occur in adrenalectomized and ovariectomized rats, indicating that endocrine tissues are not involved. Experiments with isolated perfused liver gave direct evidence that the overall conversion of sitosterol into C21 bile acids occurs in this organ. Intravenously injected 7 alpha,7 beta-3H-labeled campesterol gave a product pattern identical to that of 4-14C-labeled sitosterol. Possible mechanisms for hepatic conversion of sitosterol and campesterol into C21 bile acids are discussed.
Highlights
Formation of bile acids from sitosterol in bile-fistulated female Wistar rats was studied with use of 4-‘Y!
By analysis of purified most polar products of [4-‘*Cl sitosterol by radio-gas chromatography and the same products of 7a,7,!?-[2H2]sitosterol by combined gas chromatography-mass spectrometry, two major metabolites could be identified as C& bile acids
In the present work we have studied the metabolism of sitosterol in rats by using [4-Y!]sitosterol in combination with sitosterol labeled with “H in various positions
Summary
Formation of bile acids from sitosterol in bile-fistulated female Wistar rats was studied with use of 4-‘Y!-. It was shown that polar metabolites were formed by intermediate oxidation of the 38-hydroxyl group (loss of 3H from 3a-3H-labeled sitosterol) and that the most polar fraction did not contain a hydroxyl group at C, (retention of 3H in 7a,7/3-3Hz-labeled sitosterol). By analysis of purified most polar products of [4-‘*Cl sitosterol by radio-gas chromatography and the same products of 7a,7,!?-[2H2]sitosterol by combined gas chromatography-mass spectrometry, two major metabolites could be identified as C& bile acids. Less Czl bile acids were formed from [4-14C]sitosterol in male than in female Wistar rats. Conversion of a [4-‘*C]sitosterol into CZl bile acids did occur in adrenalectomized and ovariectomized rats, indicating that endocrine tissues are not involved
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