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腺病毒膜穿透:触碰沉睡巨龙的尾巴。

Adenovirus membrane penetration: Tickling the tail of a sleeping dragon.

作者信息

Wiethoff Christopher M, Nemerow Glen R

机构信息

Loyola University Chicago, 2016 S. First Avenue, Maywood, IL 60153, USA.

The Scripps Research Institute, 10550 North Torrey Pines Road, La Jolla, CA 92037, USA.

出版信息

Virology. 2015 May;479-480:591-9. doi: 10.1016/j.virol.2015.03.006. Epub 2015 Mar 19.

DOI:10.1016/j.virol.2015.03.006
PMID:25798531
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4424092/
Abstract

As is the case for nearly every viral pathogen, non-enveloped viruses (NEV) must maintain their integrity under potentially harsh environmental conditions while retaining the ability to undergo rapid disassembly at the right time and right place inside host cells. NEVs generally exist in this metastable state until they encounter key cellular stimuli such as membrane receptors, decreased intracellular pH, digestion by cellular proteases, or a combination of these factors. These stimuli trigger conformational changes in the viral capsid that exposes a sequestered membrane-perturbing protein. This protein subsequently modifies the cell membrane in such a way as to allow passage of the virion and accompanying nucleic acid payload into the cell cytoplasm. Different NEVs employ variations of this general pathway for cell entry (Moyer and Nemerow, 2011, Curr. Opin. Virol., 1, 44-49), however this review will focus on significant new knowledge obtained on cell entry by human adenovirus (HAdV).

摘要

与几乎所有病毒病原体的情况一样,无包膜病毒(NEV)必须在潜在的恶劣环境条件下保持其完整性,同时保留在宿主细胞内正确的时间和地点进行快速解离的能力。NEV通常处于这种亚稳态,直到它们遇到关键的细胞刺激,如膜受体、细胞内pH值降低、细胞蛋白酶消化或这些因素的组合。这些刺激会触发病毒衣壳的构象变化,从而暴露出一种被隔离的膜扰动蛋白。这种蛋白质随后以一种允许病毒粒子和伴随的核酸有效载荷进入细胞质的方式修饰细胞膜。不同的NEV采用这种一般的细胞进入途径的变体(Moyer和Nemerow,2011年,《病毒学当前观点》,1,44 - 49),然而,本综述将重点关注人类腺病毒(HAdV)在细胞进入方面获得的重要新知识。

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