Involvement of CYP 2E1 enzyme in ovotoxicity caused by 4-vinylcyclohexene and its metabolites


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Abstract

4-Vinylcyclohexene (VCH) is bioactivated by hepatic CYP 2A and 2B to a monoepoxide (VCM) and subsequently to an ovotoxic diepoxide metabolite (VCD). Studies suggest that the ovary can directly bioactivate VCH via CYP 2E1. The current study was designed to evaluate the role of ovarian CYP 2E1 in VCM-induced ovotoxicity. Postnatal day 4 B6C3F1 and CYP 2E1 wild-type (+/+) and null (−/−) mouse ovaries were cultured (15 days) with VCD (30 μM), 1,2-VCM (125–1000 μM), or vehicle. Twenty-eight days female CYP 2E1 +/+ and −/− mice were dosed daily (15 days; ip) with VCH, 1,2-VCM, VCD or vehicle. Following culture or in vivo dosing, ovaries were histologically evaluated. In culture, VCD decreased (p < 0.05) primordial and primary follicles in ovaries from all three groups of mice. 1,2-VCM decreased (p < 0.05) primordial follicles in B6C3F1 and CYP 2E1 +/+ ovaries, but not in CYP 2E1 −/− ovaries in culture. 1,2-VCM did not affect primary follicles in any group of mouse ovaries. Conversely, following in vivo dosing, primordial and primary follicles were reduced (p < 0.05) by VCD and VCM in CYP2E1 +/+ and −/−, and by VCH in +/+ mice. The data demonstrate that, whereas in vitro ovarian bioactivation of VCM requires CYP 2E1 enzyme, in vivo CYP 2E1 plays a minimal role. Thus, the findings support that hepatic metabolism dominates the contribution made by the ovary in bioactivation of VCM to its ovotoxic metabolite, VCD. This study also demonstrates the use of a novel ovarian culture system to evaluate ovary-specific metabolism of xenobiotics.

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