Membrane estrogen receptor-alpha-mediated nongenomic actions of phytoestrogens in GH3/B6/F10 pituitary tumor cells.

Q2 Biochemistry, Genetics and Molecular Biology

Journal of Molecular Signaling Pub Date : 2009-04-28 DOI:10.1186/1750-2187-4-2

Yow-Jiun Jeng, Mikhail Y Kochukov, Cheryl S Watson

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引用次数: 56

Abstract

Background: Estradiol (E2) mediates various intracellular signaling cascades from the plasma membrane via several estrogen receptors (ERs). The pituitary is an estrogen-responsive tissue, and we have previously reported that E2 can activate mitogen-activated protein kinases (MAPKs) such as ERK1/2 and JNK1/2/3 in the membrane ERalpha (mERalpha)-enriched GH3/B6/F10 rat pituitary tumor cell line. Phytoestrogens are compounds found in plants and foods such as soybeans, alfalfa sprouts, and red grapes. They are structurally similar to E2 and share a similar mechanism of action through their binding to ERs. Phytoestrogens bind to nuclear ERs with a much lower affinity and therefore are less potent in mediating genomic responses. However, little is known about their ability to act via mERs to mediate nongenomic effects.

Methods: To investigate the activation of different nongenomic pathways, and determine the involvement of mERalpha, we measured prolactin (PRL) release by radio-immunoassay, MAPK activations (ERK1/2 and JNK1/2/3) via a quantitative plate immunoassay, and intracellular [Ca2+] by Fura-2 fluorescence imaging in cells treated with E2 or four different phytoestrogens (coumestrol, daidzein, genistein, and trans-resveratrol).

Results: Coumesterol and daidzein increased PRL release similar to E2 in GH3/B6/F10 cells, while genistein and trans-resveratrol had no effect. All of these compounds except genistein activated ERK1/2 signaling at 1-10 picomolar concentrations; JNK 1/2/3 was activated by all compounds at a 100 nanomolar concentration. All compounds also caused rapid Ca2+ uptake, though in unique dose-dependent Ca2+ response patterns for several aspects of this response. A subclone of GH3 cells expressing low levels of mERalpha (GH3/B6/D9) did not respond to any phytoestrogen treatments for any of these responses, suggesting that these nongenomic effects were mediated via mERalpha.

Conclusion: Phytoestrogens were much more potent in mediating these nongenomic responses (activation of MAPKs, PRL release, and increased intracellular [Ca2+]) via mERalpha than was previously reported for genomic responses. The unique non-monotonic dose responses and variant signaling patterns caused by E2 and all tested phytoestrogens suggest that complex and multiple signaling pathways or binding partners could be involved. By activating these different nongenomic signaling pathways, phytoestrogens could have significant physiological consequences for pituitary cell functions.

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膜雌激素受体介导的植物雌激素在GH3/B6/F10垂体肿瘤细胞中的非基因组作用

背景:雌二醇(E2)通过多种雌激素受体(er)介导质膜上的多种细胞内信号级联反应。垂体是一种雌激素应答组织，我们之前报道过E2可以激活膜ERalpha (mERalpha)富集的大鼠垂体瘤细胞系GH3/B6/F10中有丝裂原活化蛋白激酶(MAPKs)如ERK1/2和JNK1/2/3。植物雌激素是在植物和食物中发现的化合物，如大豆、苜蓿芽和红葡萄。它们在结构上与E2相似，并通过与er的结合共享相似的作用机制。植物雌激素与核内质网结合的亲和力要低得多，因此在介导基因组反应方面效力较弱。然而，人们对它们通过中东呼吸综合征介导非基因组效应的能力知之甚少。方法:为了研究不同的非基因组途径的激活，并确定mERalpha的参与，我们用放射免疫法测量了泌乳素(PRL)的释放，用定量板免疫法测量了MAPK的激活(ERK1/2和JNK1/2/3)，用Fura-2荧光成像测量了E2或四种不同的植物雌激素(coumestrol、大豆苷元、染料木素和反式白藜芦醇)处理的细胞内[Ca2+]。结果:在GH3/B6/F10细胞中，香甾醇和大豆苷元增加了PRL的释放，类似于E2，而染料木素和反式白藜芦醇没有作用。除染料木素外，所有这些化合物在1-10皮摩尔浓度下激活ERK1/2信号;JNK 1/2/3被所有化合物在100纳摩尔浓度下活化。所有化合物也引起快速Ca2+摄取，虽然在独特的剂量依赖的Ca2+响应模式的几个方面的反应。表达低水平mERalpha (GH3/B6/D9)的GH3细胞亚克隆对任何植物雌激素处理都没有反应，这表明这些非基因组效应是通过mERalpha介导的。结论:植物雌激素通过mERalpha介导这些非基因组反应(MAPKs的激活、PRL的释放和细胞内[Ca2+]的增加)比之前报道的基因组反应更有效。E2和所有被测植物雌激素引起的独特的非单调剂量反应和不同的信号模式表明，可能涉及复杂的多种信号通路或结合伙伴。通过激活这些不同的非基因组信号通路，植物雌激素可能对垂体细胞功能产生重要的生理影响。

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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Journal of Molecular Signaling Biochemistry, Genetics and Molecular Biology-Biochemistry

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期刊介绍： Journal of Molecular Signaling is an open access, peer-reviewed online journal that encompasses all aspects of molecular signaling. Molecular signaling is an exponentially growing field that encompasses different molecular aspects of cell signaling underlying normal and pathological conditions. Specifically, the research area of the journal is on the normal or aberrant molecular mechanisms involving receptors, G-proteins, kinases, phosphatases, and transcription factors in regulating cell proliferation, differentiation, apoptosis, and oncogenesis in mammalian cells. This area also covers the genetic and epigenetic changes that modulate the signaling properties of cells and the resultant physiological conditions.