Bisphenol a binds to the low-affinity estrogen binding site.

In vitro & molecular toxicology Pub Date : 2001-01-01 DOI:10.1089/109793301316882531

W. Washington, L. Hubert, D. Jones, W. Gray

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引用次数: 31

Abstract

Environmental estrogens are suspected of being involved in the current increase in the incidence of human reproductive malfunctions, such as a decrease in male reproductive capacity and an increased incidence of breast cancer in women. The influences of these compounds have been proposed to be mediated through binding to macromolecules, such as estrogen receptor alpha or beta. In this study we examined whether the low-affinity Type II estrogen binding site (Type II EBS), originally identified in the rat uterus, is a possible mediator of environmental estrogens such as bisphenol A (BPA). Analysis of BPA's binding to an enriched fraction of Type II EBS, using a competition assay, indicated that BPA was able to compete with estradiol in binding to this site. At a concentration of 10-15 microM (comparable to that required to induce uterine proliferation), BPA inhibited the binding of estradiol to Type II EBS by greater than 50%. The binding affinity of BPA for the Type II EBS was only 8-10-fold lower than that of the synthetic estrogen diethylstilbestrol. The binding of BPA to Type II EBS appeared specific to BPA, in that endosulfan, another environmental estrogen, failed to displace estradiol from the site. A comparison of the relative binding affinities of BPA for rat uterine estrogen receptor alpha to that of the Type II EBS implies that BPA preferentially binds to the Type II EBS.

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双酚a与低亲和力雌激素结合位点结合。

环境雌激素被怀疑与目前人类生殖功能失常发生率的增加有关，例如男性生殖能力的下降和妇女乳腺癌发病率的增加。这些化合物的影响被认为是通过与大分子结合介导的，如雌激素受体α或β。在这项研究中，我们研究了最初在大鼠子宫中发现的低亲和力II型雌激素结合位点(Type II EBS)是否可能是双酚a (BPA)等环境雌激素的中介。利用竞争分析法分析了BPA与II型EBS富集部分的结合，表明BPA能够与雌二醇竞争结合该位点。在10-15微米(与诱导子宫增生所需的浓度相当)的浓度下，BPA抑制雌二醇与II型EBS结合的作用大于50%。BPA对II型EBS的结合亲和力仅比合成雌激素己烯雌酚低8-10倍。BPA与II型EBS的结合似乎是BPA特有的，因为硫丹(另一种环境雌激素)不能从该位点取代雌二醇。BPA对大鼠子宫雌激素受体α和II型EBS的相对结合亲和力的比较表明，BPA优先与II型EBS结合。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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In vitro & molecular toxicology

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