Understanding the interaction of estrogenic ligands with estrogen receptors: a survey of the functional and binding kinetic studies.

IF 1.2 4区 环境科学与生态学 Q4 ENVIRONMENTAL SCIENCES
Jingwei Jin, Panpan Wu, Xinyue Zhang, Dongli Li, Wing-Leung Wong, Yu-Jing Lu, Ning Sun, Kun Zhang
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引用次数: 6

Abstract

The investigation of estrogen actions and their interaction characteristics with estrogen receptors (ERs) to induce unique functional features inside cells have allowed us to understand better the regulation of many vital physiological and cellular processes in humans. The biological effects of estrogenic ligands or compounds are mediated via estrogen receptors that act as the ligand-activated transcription factors. Therefore, the study on ligand-ER interaction properties and mechanism of ligand-ER complexes binding to specific estrogen response elements located in the promoters of target genes are very critical to realize the complicated biological process regulated by the endogenous estrogens. Several reviews have provided comprehensive and updated information on the influence of estrogen receptors in health and disease. However, the mechanism of estrogen-ERs binding and affinity aspects at molecular level is relatively under-investigated. This review thus aims to shed light on the significance of the binding kinetics of ligand-ER interactions because the information provide great assistance to define how a ligand or a drug can communicate with physiology to produce a desired therapeutic response. In addition, the most frequently used methodologies for the binding kinetic study are highlighted over the last decade.

了解雌激素受体与雌激素配体的相互作用:功能和结合动力学研究综述。
研究雌激素的作用及其与雌激素受体(er)的相互作用特征,以诱导细胞内独特的功能特征,使我们能够更好地了解人类许多重要生理和细胞过程的调节。雌激素受体作为配体激活的转录因子,介导了雌激素配体或化合物的生物学效应。因此,研究配体-内质网复合物结合靶基因启动子中特定雌激素反应元件的相互作用特性及机制,对于实现内源性雌激素调控的复杂生物过程至关重要。几篇综述提供了关于雌激素受体在健康和疾病中的影响的全面和最新的信息。然而,雌激素-内质网在分子水平上的结合和亲和性机制研究相对较少。因此,本综述旨在阐明配体-内质网相互作用结合动力学的重要性,因为这些信息为定义配体或药物如何与生理交流以产生所需的治疗反应提供了很大的帮助。此外,结合动力学研究中最常用的方法在过去的十年中得到了强调。
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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来源期刊
CiteScore
4.60
自引率
0.00%
发文量
10
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