Structure‐retention correlation of isomeric bile acids in inclusion high‐performance liquid chromatography with methyl β‐cyclodextrin

Abstract

The structure-retention correlation of various C₂₄ bile acid isomers was studied by the addition of methyl β-cyclodextrin (Me-β-CD) to mobile phases in reversed-phase high-performance liquid chromatography (HPLC). The compounds examined include a series of monosubstituted bile acids related to cholanoic acids differing from one another in the position and configuration of an oxygen-containing function (hydroxyl or oxo group) at the position C-3, C-6, C-7, or C-12 and the stereochemistry of the A/B-ring fusion (trans 5α-H and cis 5β-H) in the steroid nucleus. The inclusion HPLC with Me-β-CD was also applied to biologically important 4β- and 6-hydroxylated bile acids substituted by three to four hydroxyl groups in the 5β-steroid nucleus. These bile acid samples were converted into their fluorescence prelabeled 24-pyrenacyl ester derivatives and chromatographed on a Capcell Pak C₁₈ column eluted with methanol-water mixtures in the presence or absence of 5 mM Me-β-CD. The effects of Me-β-CD on the retentions of each compound were correlated quantitatively to the decreasing rate of capacity factors and the relative strength of host-guest inter-actions. On the basis of the retention data, specific and nonspecific hydrogen-bonding interactions between the bile acids and the Me-β-CD were discussed.