Biology of the Mi-2/NuRD Complex in SLAC (Stemness, Longevity/Ageing, and Cancer).

Yue Zhang
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引用次数: 21

Abstract

The dynamic chromatin activities of Mi-2/Nucleosome Remodeling and Histone deacetylation (Mi-2/NuRD) complexes in mammals are at the basis of current research on stemness, longevity/ageing, and cancer (4-2-1/SLAC), and have been widely studied over the past decade in mammals and the elegant model organism, Caenorhabditis elegans. Interestingly, a common emergent theme from these studies is that of distinct coregulator-recruited Mi-2/NuRD complexes largely orchestrating the 4-2-1/SLAC within a unique paradigm by maintaining genome stability via DNA repair and controlling three types of transcriptional programs in concert in a number of cellular, tissue, and organism contexts. Thus, the core Mi-2/NuRD complex plays a central role in 4-2-1/SLAC. The plasticity and robustness of 4-2-1/SLAC can be interpreted as modulation of specific coregulator(s) within cell-specific, tissue-specific, stage-specific, or organism-specific niches during stress induction, ie, a functional module and its networking, thereby conferring differential responses to different environmental cues. According to "Occam's razor", a simple theory is preferable to a complex one, so this simplified notion might be useful for exploring 4-2-1/SLAC with a holistic view. This thought could also be valuable in forming strategies for future research, and could open up avenues for cancer prevention and antiageing strategies.

Abstract Image

Abstract Image

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Mi-2/NuRD复合体在SLAC(干性、长寿/衰老和癌症)中的生物学作用。
哺乳动物中Mi-2/核小体重塑和组蛋白去乙酰化(Mi-2/NuRD)复合物的动态染色质活性是当前研究干性、长寿/衰老和癌症(4-2-1/SLAC)的基础,并且在过去十年中在哺乳动物和优雅的模式生物秀丽隐杆线虫中得到了广泛的研究。有趣的是,这些研究中出现的一个共同主题是,不同的协同调节因子募集的Mi-2/NuRD复合物在一个独特的范例中,通过DNA修复维持基因组稳定性,并在许多细胞、组织和生物体环境中协同控制三种类型的转录程序,从而在很大程度上协调4-2-1/SLAC。因此,核心Mi-2/NuRD复合体在4-2-1/SLAC中起着核心作用。4-2-1/SLAC的可塑性和稳稳性可以解释为在应激诱导过程中,细胞特异性、组织特异性、阶段特异性或生物特异性生态位(即功能模块及其网络)中特定协同调节因子的调节,从而赋予对不同环境信号的不同反应。根据“奥卡姆剃刀”,一个简单的理论比一个复杂的理论更受欢迎,所以这个简化的概念可能对从整体角度探索4-2-1/SLAC很有用。这一想法在形成未来研究策略方面也很有价值,并可能为癌症预防和抗衰老策略开辟道路。
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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