Institute of Applied Biosciences, Chair of Food Chemistry, Karlsruhe Institute of Technology (KIT), Karlsruhe, Germany.
Toxicol Lett. 2012 Apr 5;210(1):9-14. doi: 10.1016/j.toxlet.2012.01.010. Epub 2012 Jan 20.
α-Zearalanol (α-ZAL, zeranol) is a highly estrogenic macrocyclic β-resorcylic acid lactone, which is used as a growth promotor for cattle in various countries. We have recently reported that α-ZAL and its major metabolite zearalanone (ZAN) are hydroxylated at the aromatic ring by microsomes from human liver in vitro, thereby forming two catechol metabolites each. Thus, the oxidative metabolism of α-ZAL and ZAN resembles that of the endogenous steroidal estrogens 17β-estradiol (E2) and estrone (E1), which also give rise to two catechols each. As these catechol metabolites are believed to mediate the carcinogenicity of E2 and E1 by causing oxidative DNA damage and DNA adducts, their methylation by catechol-O-methyltransferase (COMT) is an important inactivation pathway. Here we report that hepatic microsomes from five species generate catechol metabolites of α-ZAL and ZAN, the highest amounts being formed by human liver microsomes, followed by rat, mouse, steer and swine. The microsomal extracts and the individual catechols of α-ZAL, ZAN, E2 and E1 were found to induce oxidative DNA damage, as measured by the formation of 8-oxo-7,8-dihydro-2'-deoxyguanosine in a cell-free system. The ranking of pro-oxidant activity was 15-HO-ZAN>15-HO-α-ZAL≈4-HO-E2/E1≈2-HO-E2/E1>13-HO-ZAN>13-HO-α-ZAL. With respect to the rate of methylation by human hepatic COMT, the ranking was 2-HO-E2/E1>>4-HO-E2/E1>15-HO-α-ZAL/ZAN>>13-HO-α-ZAL/ZAN. Thus, some catechol metabolites of α-ZAL and ZAN are better pro-oxidants and poorer substrates of COMT than the catechols of E2 and E1. These findings warrant further investigations into the genotoxic potential of α-ZAL, which may constitute another biological activity in addition to its well-known estrogenicity.
α-玉米赤霉醇(α-ZAL,玉米赤霉醇)是一种具有高度雌激素活性的大环β-Resorcylic 酸内酯,被用作许多国家牛的生长促进剂。我们最近报道称,α-ZAL 及其主要代谢物 Zearalanone(ZAN)可在人肝微粒体中体外被芳环羟化,从而各自形成两种儿茶酚代谢物。因此,α-ZAL 和 ZAN 的氧化代谢类似于内源性甾体雌激素 17β-雌二醇(E2)和雌酮(E1)的代谢,它们各自也产生两种儿茶酚。由于这些儿茶酚代谢物通过引起氧化 DNA 损伤和 DNA 加合物而被认为介导了 E2 和 E1 的致癌性,因此儿茶酚-O-甲基转移酶(COMT)的甲基化是一种重要的失活途径。在这里,我们报道了来自五种物种的肝微粒体生成α-ZAL 和 ZAN 的儿茶酚代谢物,其中人肝微粒体生成的量最高,其次是大鼠、小鼠、牛和猪。发现微粒体提取物和 α-ZAL、ZAN、E2 和 E1 的各个儿茶酚均可诱导细胞游离体系中 8-氧-7,8-二氢-2'-脱氧鸟苷的形成,从而引起氧化 DNA 损伤。促氧化剂活性的排序为 15-HO-ZAN>15-HO-α-ZAL≈4-HO-E2/E1≈2-HO-E2/E1>13-HO-ZAN>13-HO-α-ZAL。就人肝 COMT 的甲基化速率而言,排序为 2-HO-E2/E1>>4-HO-E2/E1>15-HO-α-ZAL/ZAN>>13-HO-α-ZAL/ZAN。因此,α-ZAL 和 ZAN 的一些儿茶酚代谢物比 E2 和 E1 的儿茶酚具有更好的促氧化剂活性和更差的 COMT 底物。这些发现值得进一步研究 α-ZAL 的遗传毒性潜力,这可能是除了其众所周知的雌激素活性之外的另一种生物学活性。
