Gas Chromatographic Analysis with Chiral Cyclodextrin Phases Reveals the Enantioselective Formation of Hydroxylated Polychlorinated Biphenyls by Rat Liver Microsomes

摘要

Chiral PCB congeners are major components of PCB mixtures and undergo enantioselective biotransformation to hydroxylated (OH-)PCBs by cytochrome P4S0 enzymes. While it is known that biotransformation results in an enantio-meric enrichment of the parent PCB, it is currently unknown if OH-PCBs are formed enantioselectively. The present study screened seven commercial capillary gas chromatography col- umns containing modified β- or y-cyclodextrins for their potential to separate the atropisomers of methylated derivatives of OH-PCB. The atropisomers of 3-, 4- and 5-methoxy derivatives were at least partially separated on one or more columns. A subsequent biotransformation study was performed with rat liver microsomes to assess if hydroxylated metabolites are formed enantioselectively from PCBs 91,95,132, and 149. The OH-PCBs were extracted from the microsomal incubations, derhratized with diazomethane and analyzed as the respective methoxylated (MeO—)PCB derivatives using selected columns. The 5-hydroxylated metabolites of PCBs 91,95, 132, and 149 were the major metabolites, which is consistent with PCB's biotransformation by cytochrome P450 2B enzymes. All 5-hydroxylated metabolites displayed a clear, congener-specific enantiomeric enrichment Overall, this study demonstrates for the first time that chiral PCBs, such as PCB 91,95,132, and 149, are enantioselectively metabolized to OH-PCBs by cytochrome P450 enzymes.