核小体动力学:HMGB1促进核小体重组并参与雌激素反应性基因表达

W. Scovell
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引用次数: 2

摘要

人类细胞的基因组在细胞核中是非常紧密的。因此,大部分DNA是无法接近的,而且在功能上是惰性的。尽管有高效的包装,但机制已经进化到可以访问DNA位点,从而使许多因素能够执行正在进行的重要功能。这种压实来自核小体内的DNA络合,它可以进一步巩固成更高阶的染色质结构。核小体和核小体DNA在本质上不是静态的,而是动态的,随着细胞对压力和/或代谢或环境线索的反应,它们会发生结构和功能的变化。我们才刚刚开始了解与核小体结合的力量和复合物,以挖掘紧密结合且难以接近的DNA序列,并为更容易接近的目标位点提供一个开放的空间。在许多情况下,目前的研究结果支持atp依赖性染色质重塑复合体(CRCs)在提供导致转录激活的因子可及性途径中的主要作用。雌激素受体α (ERα)不与典型核小体中的雌激素反应元件(ERE)结合。然而,将有证据表明HMGB1以不依赖于atp的方式重组核小体,并促进ERα与ERE的接近和强结合。除了重组核小体的特征外,还将强调HMGB1作用机制中显得重要的特征。这些发现,连同先前的证据,表明HMGB1在雌激素应答基因的分步转录中发挥协同作用。此外,考虑到核小体的“HMGB1重组”通常可以被视为在由HMGB1的构象选择驱动的能量格局中,对近等能核小体状态集合平衡的扰动,将讨论替代的机制途径。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Nucleosome dynamics: HMGB1 facilitates nucleosome restructuring and collaborates in estrogen-responsive gene expression
Abstract The genome in the human cell is extraordinarily compacted in the nucleus. As a result, much of the DNA is inaccessible and functionally inert. Notwithstanding the highly efficient packaging, mechanisms have evolved to render DNA sites accessible that then enable a multitude of factors to carry out ongoing and vital functions. The compaction is derived from DNA complexation within nucleosomes, which can further consolidate into a higher-order chromatin structure. The nucleosome and nucleosomal DNA are not static in nature, but are dynamic, undergoing structural and functional changes as the cell responds to stresses and/or metabolic or environmental cues. We are only beginning to understand the forces and the complexes that engage the nucleosome to unearth the tightly bound and inaccessible DNA sequences and provide an opening to more accessible target sites. In many cases, current findings support a major role for the action of ATP-dependent chromatin remodeling complexes (CRCs) in providing an avenue to factor accessibility that leads to the activation of transcription. The estrogen receptor α (ERα) does not bind to the estrogen response element (ERE) in the canonical nucleosome. However, evidence will be presented that HMGB1 restructures the nucleosome in an ATP-independent manner and also facilitates access and strong binding of ERα to ERE. The features that appear important in the mechanism of action for HMGB1 will be highlighted, in addition to the characteristic features of the restructured nucleosome. These findings, together with previous evidence, suggest a collaborative role for HMGB1 in the step-wise transcription of estrogen-responsive genes. In addition, alternate mechanistic pathways will be discussed, with consideration that “HMGB1 restructuring” of the nucleosome may generally be viewed as a perturbation of the equilibrium of an ensemble of nearly isoenergetic nucleosome states in an energy landscape that is driven by conformational selection by HMGB1.
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来源期刊
AIMS Genetics
AIMS Genetics GENETICS & HEREDITY-
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