Genotoxicity and inactivation of catechol metabolites of the mycotoxin zearalenone |
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Authors: | Stefanie C Fleck Andreas A Hildebrand Elisabeth Müller Erika Pfeiffer Manfred Metzler |
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Institution: | 1. Institute of Applied Biosciences, Karlsruhe Institute of Technology (KIT), Bldg. 50.41, Adenauerring 20a, 76131, Karlsruhe, Germany
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Abstract: | Zearalenone (ZEN) is a highly estrogenic mycotoxin produced by Fusarium species. The adverse effects of ZEN and its reductive metabolite ??-zearalenol (??-ZEL) are often compared to those of 17??-estradiol (E2) and estrone (E1). These endogenous steroidal estrogens are associated with an increased risk for cancer, which may be mediated by two mechanisms, i.e. (1) hormonal activity and (2) genotoxic effects after cytochrome P450-catalyzed metabolic activation to catechols. Like E1 and E2, ZEN and ??-ZEL exhibit marked estrogenicity and also undergo aromatic hydroxylation to catechol metabolites. The subsequent methylation of catechols by catechol-O-methyltransferase (COMT) is generally considered as a detoxifying pathway. Imbalances between the activation and inactivation reactions can lead to the formation of reactive semiquinones and quinones, which can alkylate DNA or produce reactive oxygen species by redox cycling. In the present study, the genotoxicity of the catechol metabolites of ZEN, ??-ZEL, E1 and E2 was determined in a cell-free system by measuring 8-oxo-2??-deoxyguanosine using a LC-DAD-MS2 method. Each of the individual catechols of ZEN, ??-ZEL, E1 and E2 induced oxidative DNA damage in calf thymus DNA. The ranking order of the DNA damaging activity was 15-hydroxy-ZEN/??-ZEL ?? 2/4-hydroxy-E1/E2 > 13-hydroxy-ZEN/??-ZEL. When hepatic microsomes from different species were incubated with ZEN, the rat had the highest activity for catechol formation, followed by human, mouse, pig and steer. The amount of catechol metabolites correlated directly with the amount of oxidative damage in calf thymus DNA. The ranking order for the rate of methylation by human hepatic COMT was 2-hydroxy-E1/E2 >> 4-hydroxy-E1/E2 >> 13/15-hydroxy-ZEN/??-ZEL. Thus, the catechol metabolites of the mycoestrogen ZEN and its reductive metabolite ??-ZEL exhibit a DNA-damaging potential comparable to that of the catechol metabolites of E1 and E2, but are much poorer substrates for inactivation by human COMT. |
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