Monounsaturated 5β-cholanoic acids with double bonds in rings A, B, and C were prepared by POCl3 and ZnCl2 dehydration from natural bile acids with selectively blocked hydroxyl functions. The yields ranged from 15 to 100%. The products were purified by thin-layer and AgNO3 thin-layer chromatography and the structures were confirmed by nuclear magnetic resonance spectroscopy and mass spectrometry. The methyl ester acetates of the unsaturated 5β-cholanoic acids possessed chromatographic properties closely similar to those of the corresponding saturated bile acids. Several characteristic fragments were seen in the mass spectra which, in conjunction with the chromatographic properties, permitted an unambiguous distinction between different monounsaturated acids, and between saturated and unsaturated bile acids of the same number and configuration of functional groups. The 20 5β-cholenoic acids examined represent all of the simple chemical and enzymatic dehydration products of natural bile acids and can be completely identified by their combined chromatographic and mass spectral properties.
Analysis of serum bile acids by capillary gas–liquid chromatography–mass spectrometry.