细小病毒B19 NS1蛋白通过激活ATR-CDC25C-CDK1途径诱导细胞周期停滞在G2期。

Parvovirus B19 NS1 protein induces cell cycle arrest at G2-phase by activating the ATR-CDC25C-CDK1 pathway.

作者信息

Xu Peng, Zhou Zhe, Xiong Min, Zou Wei, Deng Xuefeng, Ganaie Safder S, Kleiboeker Steve, Peng Jianxin, Liu Kaiyu, Wang Shengqi, Ye Shui Qing, Qiu Jianming

机构信息

School of Life Sciences, Central China Normal University, Wuhan, China.

Department of Microbiology, Molecular Genetics and Immunology, University of Kansas Medical Center, Kansas City, Kansas, United States of America.

出版信息

PLoS Pathog. 2017 Mar 6;13(3):e1006266. doi: 10.1371/journal.ppat.1006266. eCollection 2017 Mar.

DOI:10.1371/journal.ppat.1006266

PMID:28264028

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5354443/

Abstract

Human parvovirus B19 (B19V) infection of primary human erythroid progenitor cells (EPCs) arrests infected cells at both late S-phase and G2-phase, which contain 4N DNA. B19V infection induces a DNA damage response (DDR) that facilitates viral DNA replication but is dispensable for cell cycle arrest at G2-phase; however, a putative C-terminal transactivation domain (TAD2) within NS1 is responsible for G2-phase arrest. To fully understand the mechanism underlying B19V NS1-induced G2-phase arrest, we established two doxycycline-inducible B19V-permissive UT7/Epo-S1 cell lines that express NS1 or NS1mTAD2, and examined the function of the TAD2 domain during G2-phase arrest. The results confirm that the NS1 TAD2 domain plays a pivotal role in NS1-induced G2-phase arrest. Mechanistically, NS1 transactivated cellular gene expression through the TAD2 domain, which was itself responsible for ATR (ataxia-telangiectasia mutated and Rad3-related) activation. Activated ATR phosphorylated CDC25C at serine 216, which in turn inactivated the cyclin B/CDK1 complex without affecting nuclear import of the complex. Importantly, we found that the ATR-CHK1-CDC25C-CDK1 pathway was activated during B19V infection of EPCs, and that ATR activation played an important role in B19V infection-induced G2-phase arrest.

摘要

人细小病毒B19（B19V）感染原代人红系祖细胞（EPCs）会使感染细胞停滞在含有4N DNA的S期晚期和G2期。B19V感染诱导DNA损伤反应（DDR），这有助于病毒DNA复制，但对于G2期的细胞周期停滞并非必需；然而，NS1内一个假定的C端反式激活结构域（TAD2）负责G2期停滞。为了全面了解B19V NS1诱导G2期停滞的机制，我们建立了两个强力霉素诱导的B19V允许性UT7/Epo-S1细胞系，它们表达NS1或NS1mTAD2，并研究了TAD2结构域在G2期停滞过程中的功能。结果证实，NS1的TAD2结构域在NS1诱导的G2期停滞中起关键作用。从机制上讲，NS1通过TAD2结构域反式激活细胞基因表达，而TAD2结构域本身负责激活共济失调毛细血管扩张症突变和Rad3相关蛋白（ATR）。激活的ATR使细胞分裂周期蛋白25C（CDC25C）的丝氨酸216位点磷酸化，这反过来又使细胞周期蛋白B/周期蛋白依赖性激酶1（CDK1）复合物失活，而不影响该复合物的核输入。重要的是，我们发现ATR-CHK1-CDC25C-CDK1通路在EPCs感染B19V期间被激活，并且ATR激活在B19V感染诱导的G2期停滞中起重要作用。

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细小病毒B19 NS1蛋白通过激活ATR-CDC25C-CDK1途径诱导细胞周期停滞在G2期。

Parvovirus B19 NS1 protein induces cell cycle arrest at G2-phase by activating the ATR-CDC25C-CDK1 pathway.

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