Akgul Yucel, Derk Raymond C, Meighan Terence, Rao K Murali Krishna, Murono Eisuke P
Department of Physiology and Pharmacology, West Virginia University School of Medicine, Morgantown, WV, USA.
Reprod Toxicol. 2008 Jan;25(1):67-75. doi: 10.1016/j.reprotox.2007.10.007. Epub 2007 Oct 25.
Exposure to the pesticide methoxychlor in rodents is linked to impaired steroid production, ovarian atrophy and reduced fertility. Following in vivo administration, it is rapidly converted by the liver to 2,2-bis-(p-hydroxyphenyl)-1,1,1-trichloroethane (HPTE), the reported active metabolite. Both methoxychlor and HPTE have weak estrogenic and antiandrogenic activities, and these effects are thought to be mediated through the estrogen and androgen receptors, respectively. Previous in vivo studies on methoxychlor exposure to female animals have demonstrated decreased progesterone production but no change in serum estrogen levels. We recently showed that HPTE specifically inhibits the P450 cholesterol side-chain cleavage (P450scc, CYP11A1) step resulting in decreased androgen production by cultured rat testicular Leydig cells. The current studies examined the mechanism of action of HPTE on progesterone production by cultured ovarian cells (granulosa and theca-interstitial) from pregnant mare serum gonadotropin-primed immature rats. In addition, we evaluated whether the effects of HPTE on rat ovarian cell progesterone biosynthesis were mediated through the estrogen or androgen receptors. Exposure to HPTE (0, 10, 50 or 100nM) alone progressively inhibited progesterone formation in cultured theca-interstitial and granulosa cells and the P450scc catalytic activity in theca-interstitial cells in a dose-dependent manner with significant declines starting at 50nM. However, HPTE did not change mRNA levels of the P450scc system (P450scc, adrenodoxin reductase and adrenodoxin) as well as P450scc protein levels. Of interest, estradiol, xenoestrogens (bisphenol-A or 4-tert-octylphenol), a pure antiestrogen (ICI 182,780), or antiandrogens (4-hydroxyflutamide or the vinclozolin metabolite M-2), had no effect on progesterone production even at 1000nM. Co-treatment of HPTE with ICI 182,780 did not block the effect of HPTE on progesterone formation. These studies suggest that the decline in progesterone formation following exposure to HPTE in cultured ovarian cells is associated with the inhibition of catalytic activity of P450scc at least in theca-interstitial cells. This action does not appear to be mediated through the estrogen or androgen receptor signaling pathways, and other chemicals exhibiting estrogenic, antiestrogenic or antiandrogenic properties do not mimic its effect on ovarian steroid production.
啮齿动物接触杀虫剂甲氧滴滴涕与类固醇生成受损、卵巢萎缩和生育能力降低有关。体内给药后,它会被肝脏迅速转化为2,2-双-(对羟基苯基)-1,1,1-三氯乙烷(HPTE),据报道这是其活性代谢物。甲氧滴滴涕和HPTE都具有微弱的雌激素和抗雄激素活性,并且这些作用分别被认为是通过雌激素和雄激素受体介导的。先前关于雌性动物接触甲氧滴滴涕的体内研究表明孕酮生成减少,但血清雌激素水平没有变化。我们最近发现HPTE特异性抑制P450胆固醇侧链裂解(P450scc,CYP11A1)步骤,导致培养的大鼠睾丸间质细胞雄激素生成减少。当前的研究检查了HPTE对孕马血清促性腺激素预处理的未成熟大鼠培养的卵巢细胞(颗粒细胞和卵泡膜-间质细胞)孕酮生成的作用机制。此外,我们评估了HPTE对大鼠卵巢细胞孕酮生物合成的影响是否通过雌激素或雄激素受体介导。单独暴露于HPTE(0、10、50或100nM)以剂量依赖的方式逐渐抑制培养的卵泡膜-间质细胞和颗粒细胞中的孕酮形成以及卵泡膜-间质细胞中的P450scc催化活性,从50nM开始显著下降。然而,HPTE并没有改变P450scc系统(P450scc、肾上腺皮质铁氧化还原蛋白还原酶和肾上腺皮质铁氧化还原蛋白)的mRNA水平以及P450scc蛋白水平。有趣的是,雌二醇、外源性雌激素(双酚A或4-叔辛基苯酚)、一种纯抗雌激素(ICI 182,780)或抗雄激素(4-羟基氟他胺或乙烯菌核利代谢物M-2)即使在1000nM时对孕酮生成也没有影响。HPTE与ICI 182,780共同处理并没有阻断HPTE对孕酮形成的作用。这些研究表明,培养的卵巢细胞暴露于HPTE后孕酮生成的下降至少在卵泡膜-间质细胞中与P450scc催化活性的抑制有关。这种作用似乎不是通过雌激素或雄激素受体信号通路介导的,并且其他具有雌激素、抗雌激素或抗雄激素特性的化学物质不会模拟其对卵巢类固醇生成的影响。
