Synthesis of hyocholic acid and its derivatization with sodium periodate to distinguish it from cholic acid by mass spectrometry

Low concentrations of hyocholic acid in human serum has been linked to diabetes. Due to its important role in human health, we were interested in synthesizing hyocholic acid to explore potential biochemical properties of this bile acid. Here, a synthesis of hyocholic acid is reported from chenodeoxycholic acid. The key step was a Rubottom oxidation of a silyl enol ether intermediate to directly incorporate the oxygen at C6. Furthermore, the synthesized hyocholic acid product was treated with NaIO4 to cleave the C6-C7 bond to yield a hemiacetal at C6. This C-C bond cleavage reaction using NaIO4 was used to develop an ultra-performance liquid chromatography mass spectrometry method to distinguish between a 1 to 1 mixture of hyocholic acid and cholic acid (a 12 & alpha;hydroxylated bile acid), two bile acid regioisomers with identical masses. Upon treatment of the mixture with NaIO4, hyocholic acid was selectively cleaved in the B ring (C6-C7 bond) to yield the hemiacetal that formed between the C3-hydroxy and the C6-aldehyde moiety with an m/z 405 while cholic acid remained intact with an m/z 407 in the negative electrospray ionization mode. Subsequently, a commercially available ox bile extract was treated with NaIO4 to detect bile acid derivatives by mass spectrometry. Two possible hyocholic acid derivatives conjugated to serine and gamma-glutamic semialdehyde were detected in electrospray ionization positive mode, which oxidatively cleaved with NaIO4 (m/z 496 and 522 to m/z 494 and 520, respectively).

Automated summary

Low concentrations of hyocholic acid in human serum have been linked to diabetes. Synthesis of hyocholic acid from chenodeoxycholic acid was reported, and its biochemical properties were explored. Cleavage of the C6-C7 bond in hyocholic acid using NaIO4 was used to distinguish it from cholic acid.