Understanding the birth of rupture-prone and irreparable micronuclei.

IF 2.5 4区 生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY
Chromosoma Pub Date : 2020-12-01 Epub Date: 2020-07-15 DOI:10.1007/s00412-020-00741-w
Xihan Guo, Xueqin Dai, Xue Wu, Tao Zhou, Juan Ni, Jinglun Xue, Xu Wang
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引用次数: 14

Abstract

Micronuclei are extra-nuclear bodies mainly derived from ana-telophase lagging chromosomes/chromatins (LCs) that are not incorporated into primary nuclei at mitotic exit. Unlike primary nuclei, most micronuclei are enclosed by nuclear envelope (NE) that is highly susceptible to spontaneous and irreparable rupture. Ruptured micronuclei act as triggers of chromothripsis-like chaotic chromosomal rearrangements and cGAS-mediated innate immunity and inflammation, raising the view that micronuclei play active roles in human aging and tumorigenesis. Thus, understanding the ways in which micronuclear envelope (mNE) goes awry acquires increased importance. Here, we review the data to present a general framework for this question. We firstly describe NE reassembly after mitosis and NE repair during interphase. Simultaneously, we briefly discuss how mNE is organized and how mNE rupture controls the fate of micronuclei and micronucleated cells. As a focus of this review, we highlight current knowledge about why mNE is rupture-prone and irreparable. For this, we survey observations from a series of elegant studies to provide a systematic overview. We conclude that the birth of rupture-prone and irreparable micronuclei may be the cumulative effects of their intracellular geographic origins, biophysical properties, and specific mNE features. We propose that DNA damage and immunogenicity in micronuclei increase stepwise from altered mNE components, mNE rupture, and refractory to repair. Throughout our discussion, we note interesting issues in mNE fragility that have yet to be resolved.

了解易破裂和不可修复的微核的诞生。
微核是一种核外小体,主要来源于有丝分裂结束时未被纳入初代核的末期滞后染色体/染色质(lc)。与初代核不同,大多数微核都被核包膜(NE)包裹,这很容易发生自发和不可修复的破裂。断裂的微核可引发类似于嗜色纤维化的混乱染色体重排和cgas介导的先天免疫和炎症,从而提出微核在人类衰老和肿瘤发生中发挥积极作用的观点。因此,了解微核包膜(mNE)出错的方式变得越来越重要。在这里,我们回顾数据,为这个问题提供一个总体框架。我们首先描述了有丝分裂后NE的重组和间期NE的修复。同时,我们简要地讨论了mNE是如何组织的,以及mNE破裂如何控制微核和微核细胞的命运。作为这篇综述的重点,我们强调了目前关于为什么跨国公司容易破裂和不可修复的知识。为此,我们调查了一系列优雅研究的观察结果,以提供一个系统的概述。我们得出结论,易破裂和不可修复的微核的诞生可能是其细胞内地理起源、生物物理特性和特定mNE特征的累积效应。我们认为DNA损伤和微核的免疫原性随着mNE成分的改变、mNE断裂和难以修复而逐步增加。在整个讨论过程中,我们注意到企业脆弱性中一些有趣的问题尚未得到解决。
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
Chromosoma
Chromosoma 生物-生化与分子生物学
CiteScore
3.30
自引率
6.20%
发文量
17
审稿时长
1 months
期刊介绍: Chromosoma publishes research and review articles on the functional organization of the eukaryotic cell nucleus, with a particular emphasis on the structure and dynamics of chromatin and chromosomes; the expression and replication of genomes; genome organization and evolution; the segregation of genomes during meiosis and mitosis; the function and dynamics of subnuclear compartments; the nuclear envelope and nucleocytoplasmic interactions, and more. The scope of Chromosoma encompasses genetic, biophysical, molecular and cell biological studies. Average time from receipt of contributions to first decision: 22 days Publishes research and review articles on the functional organization of the eukaryotic cell nucleus Topics include structure and dynamics of chromatin and chromosomes; the expression and replication of genomes; genome organization and evolution; the segregation of genomes during meiosis and mitosis and more Encompasses genetic, biophysical, molecular and cell biological studies.
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