Substrate Enantioselective and Product Stereoselective Metabolism of Racemic 2-Hydroxy-3-methylcholanthrene by Rat Liver Microsomes

Abstract

Abstract Racemic 2-hydroxy-3-methylcholanthrene (rac-2-OH-3MC) is a potent carcinogen and 2S-OH-3MC is the most abundant metabolite formed in the metabolism of 3-methylcholanthrene (3MC) by rat liver microsomes. Eighteen identifiable metabolites were formed in the metabolism of rac-2-OH-3MC by liver microsomes prepared from phenobarbital-treated rats. Metabolites were separated by sequential use of reversed-phase and normal-phase high performance liquid chromatography (HPLC) and characterized by ultraviolet-visible absorption, mass, and circular dichroism spectral, and chiral stationary phase (CSP) HPLC analyses. Identified metabolites were: 2-OH-3MC 7,8-dihydrodiol (enriched in 7R,8R enantiomer), 2-OH-3MC 9,10-dihydrodiol (2S,9R,10R:2R,9S,10S ≈ 27:73 and 2R,9R,10R:2S,9S,10S ≈ 81:19), 2-OH-3MC 11,12-dihydrodiol (2R,11R,12R:2S,11S,12S ≈ 5:95 and an essentially optically pure 2S,11R,12R enantiomer), 3MC trans-1,2-diol (1S,2S:1R,2R ≈ 68:32), 3MC cis-1,2-diol (1S,2R:1R,2S ≈ 18:82), 2-OH-3-hydroxymethyl-cholan...