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人乳头瘤病毒利用DNA损伤反应来完成其生命周期。

DNA damage response is hijacked by human papillomaviruses to complete their life cycle.

作者信息

Hong Shi-Yuan

机构信息

Department of Microbiology-Immunology, Northwestern University Feinberg School of Medicine, Chicago, IL 60611, USA.

出版信息

J Zhejiang Univ Sci B. 2017 Mar;18(3):215-232. doi: 10.1631/jzus.B1600306.

DOI:10.1631/jzus.B1600306
PMID:28271657
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5369246/
Abstract

The DNA damage response (DDR) is activated when DNA is altered by intrinsic or extrinsic agents. This pathway is a complex signaling network and plays important roles in genome stability, tumor transformation, and cell cycle regulation. Human papillomaviruses (HPVs) are the main etiological agents of cervical cancer. Cervical cancer ranks as the fourth most common cancer among women and the second most frequent cause of cancer-related death worldwide. Over 200 types of HPVs have been identified and about one third of these infect the genital tract. The HPV life cycle is associated with epithelial differentiation. Recent studies have shown that HPVs deregulate the DDR to achieve a productive life cycle. In this review, I summarize current findings about how HPVs mediate the ataxia-telangiectasia mutated kinase (ATM) and the ATM-and RAD3-related kinase (ATR) DDRs, and focus on the roles that ATM and ATR signalings play in HPV viral replication. In addition, I demonstrate that the signal transducer and activator of transcription-5 (STAT)-5, an important immune regulator, can promote ATM and ATR activations through different mechanisms. These findings may provide novel opportunities for development of new therapeutic targets for HPV-related cancers.

摘要

当DNA被内源性或外源性因素改变时,DNA损伤反应(DDR)就会被激活。该途径是一个复杂的信号网络,在基因组稳定性、肿瘤转化和细胞周期调控中发挥重要作用。人乳头瘤病毒(HPV)是宫颈癌的主要病因。宫颈癌是全球女性中第四大常见癌症,也是癌症相关死亡的第二大常见原因。已鉴定出200多种HPV,其中约三分之一感染生殖道。HPV的生命周期与上皮分化有关。最近的研究表明,HPV会破坏DDR以实现有效的生命周期。在这篇综述中,我总结了关于HPV如何介导共济失调毛细血管扩张突变激酶(ATM)和ATM及RAD3相关激酶(ATR)DDR的当前研究结果,并重点关注ATM和ATR信号在HPV病毒复制中所起的作用。此外,我证明了重要的免疫调节因子转录信号转导子和激活子-5(STAT)-5可通过不同机制促进ATM和ATR的激活。这些发现可能为开发HPV相关癌症的新治疗靶点提供新机会。

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