Bile acid metabolism in early life: studies of amniotic fluid.

Bile acid metabolism of the human fetus was examined in early gestation (weeks 13-19) and compared with the full-term fetus from the analysis of amniotic fluid collected from healthy pregnant women. Total individual bile acids were determined by gas-liquid chromatography-mass spectrometry after solvolysis and hydrolysis of bile acid conjugates. Additionally, bile acids were separated according to their mode of conjugation by lipophilic anion exchange chromatography. Qualitatively the bile acid profiles of amniotic fluid in early gestation were similar and markedly different from those of full-term fetuses. Chenodeoxycholic acid was the major bile acid identified in early gestation and concentrations exceeded those of cholic acid, but by full term this relationship was reversed. Over 50 bile acids were identified in the amniotic fluids, these included C-1, C-4, and C-6 hydroxylated species and reflected primary hepatic synthesis by the fetus. At full term, 7 alpha,12 alpha-dihydroxy-3-oxo-4-cholenoic acid was one of the major bile acids identified in amniotic fluid. The monohydroxy bile acids lithocholic and 3 beta-hydroxy-5-cholenoic acids were present in significant proportions during early gestation, but by full term these accounted for only a few percent of the total bile acids. Quantitatively the total bile acid concentration of amniotic fluid was less than 4 mumol/l. The majority of bile acids were found to be glyco-, tauro-, and sulfate-conjugates. The more hydrophobic bile acids tended to be preferentially sulfated. These data indicate that significant and major changes in bile acid metabolism take place between early and late gestation in the human fetus.