Liquid-liquid phase separation in subcellular assemblages and signaling pathways: Chromatin modifications induced gene regulation for cellular physiology and functions including carcinogenesis

IF 3.3 3区 生物学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY
Subhajit Chakraborty , Jagdish Mishra , Ankan Roy , Niharika , Soumen Manna , Tirthankar Baral , Piyasa Nandi , Subhajit Patra , Samir Kumar Patra
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Abstract

Liquid-liquid phase separation (LLPS) describes many biochemical processes, including hydrogel formation, in the integrity of macromolecular assemblages and existence of membraneless organelles, including ribosome, nucleolus, nuclear speckles, paraspeckles, promyelocytic leukemia (PML) bodies, Cajal bodies (all exert crucial roles in cellular physiology), and evidence are emerging day by day. Also, phase separation is well documented in generation of plasma membrane subdomains and interplay between membranous and membraneless organelles. Intrinsically disordered regions (IDRs) of biopolymers/proteins are the most critical sticking regions that aggravate the formation of such condensates. Remarkably, phase separated condensates are also involved in epigenetic regulation of gene expression, chromatin remodeling, and heterochromatinization. Epigenetic marks on DNA and histones cooperate with RNA-binding proteins through their IDRs to trigger LLPS for facilitating transcription. How phase separation coalesces mutant oncoproteins, orchestrate tumor suppressor genes expression, and facilitated cancer-associated signaling pathways are unravelling. That autophagosome formation and DYRK3-mediated cancer stem cell modification also depend on phase separation is deciphered in part. In view of this, and to linchpin insight into the subcellular membraneless organelle assembly, gene activation and biological reactions catalyzed by enzymes, and the downstream physiological functions, and how all these events are precisely facilitated by LLPS inducing organelle function, epigenetic modulation of gene expression in this scenario, and how it goes awry in cancer progression are summarized and presented in this article.

Abstract Image

亚细胞组合和信号通路中的液-液相分离:染色质修饰诱导基因调控,促进细胞生理和功能(包括致癌)。
液-液相分离(LLPS)描述了许多生化过程,包括水凝胶的形成、大分子组合的完整性和无膜细胞器的存在,包括核糖体、核仁、核斑点、核旁斑、早幼粒细胞白血病(PML)体、卡贾尔体(它们在细胞生理中都发挥着至关重要的作用),而且证据也在不断涌现。此外,在质膜亚域的生成以及有膜和无膜细胞器之间的相互作用中,相分离也是有据可查的。生物聚合物/蛋白质的内在无序区(IDR)是最关键的粘连区,会加剧这种凝聚物的形成。值得注意的是,相分离凝聚体还参与了基因表达、染色质重塑和异染色质化的表观遗传调控。DNA 和组蛋白上的表观遗传标记通过其 IDR 与 RNA 结合蛋白合作,触发 LLPS 以促进转录。相分离如何凝聚突变的肿瘤蛋白、协调肿瘤抑制基因的表达以及促进与癌症相关的信号通路正在被揭开。自噬体的形成和 DYRK3 介导的癌症干细胞修饰也依赖于相分离,这一点已部分得到破解。有鉴于此,为了深入了解亚细胞膜无细胞器的组装、基因激活和酶催化的生物反应以及下游生理功能,本文总结并介绍了 LLPS 诱导细胞器功能、表观遗传学调控基因表达以及在癌症进展中如何发生失常的情况。
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来源期刊
Biochimie
Biochimie 生物-生化与分子生物学
CiteScore
7.20
自引率
2.60%
发文量
219
审稿时长
40 days
期刊介绍: Biochimie publishes original research articles, short communications, review articles, graphical reviews, mini-reviews, and hypotheses in the broad areas of biology, including biochemistry, enzymology, molecular and cell biology, metabolic regulation, genetics, immunology, microbiology, structural biology, genomics, proteomics, and molecular mechanisms of disease. Biochimie publishes exclusively in English. Articles are subject to peer review, and must satisfy the requirements of originality, high scientific integrity and general interest to a broad range of readers. Submissions that are judged to be of sound scientific and technical quality but do not fully satisfy the requirements for publication in Biochimie may benefit from a transfer service to a more suitable journal within the same subject area.
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