The cell-specific activity of the estrogen receptor alpha may be fine-tuned by phosphorylation-induced structural gymnastics.

Nuclear receptor signaling Pub Date : 2006-01-01 Epub Date: 2006-02-08 DOI:10.1621/nrs.04005

Valentina Gburcik, Didier Picard

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引用次数: 14

Abstract

The estrogen receptor alpha (ERalpha) regulates the transcription of target genes by recruiting coregulator proteins through several domains including the two activation functions AF1 and AF2. The contribution of the N-terminally located AF1 activity is particularly important in differentiated cells, and for ERalpha to integrate inputs from other signaling pathways. However, how the phosphorylation of key residues influences AF1 activity has long remained mysterious, in part because the naturally disordered AF1 domain has resisted a structural characterization. The recent discovery of two coregulators that are specific for a phosphorylated form of AF1 suggests that phosphorylation, possibly in conjunction with the subsequent binding of these coregulators, may enforce a stable structure. The binding of the "pioneer" coregulators might facilitate the subsequent recruitment of yet other coregulators. Different AF1 folds may be enabled by the combinatorial action of posttranslational modifications and coregulator binding thereby fine-tuning ERalpha activities in a cell- and promoter-specific fashion.

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雌激素受体α的细胞特异性活性可能被磷酸化诱导的结构体操微调。

雌激素受体(er - alpha)通过包括AF1和AF2两个激活功能域在内的几个结构域招募协同调节蛋白来调节靶基因的转录。在分化细胞中，位于n端的AF1活性的贡献尤其重要，并且对于ERalpha整合来自其他信号通路的输入尤为重要。然而，关键残基的磷酸化如何影响AF1活性一直是个谜，部分原因是自然无序的AF1结构域难以进行结构表征。最近发现的两个对AF1磷酸化形式特异性的共调节因子表明，磷酸化可能与这些共调节因子随后的结合相结合，可能会加强稳定的结构。“先驱”共同监管机构的约束可能有助于随后招募其他共同监管机构。不同的AF1折叠可以通过翻译后修饰和共调节因子结合的组合作用实现，从而以细胞和启动子特异性的方式微调erα活性。

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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Nuclear receptor signaling

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