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亚病毒乙肝病毒细丝与传染性病毒颗粒一样,通过多囊泡体释放。

Subviral Hepatitis B Virus Filaments, like Infectious Viral Particles, Are Released via Multivesicular Bodies.

作者信息

Jiang Bingfu, Himmelsbach Kiyoshi, Ren Huimei, Boller Klaus, Hildt Eberhard

机构信息

Department of Virology, Paul-Ehrlich-Institut, Langen, Germany.

Department of Immunology, Paul-Ehrlich-Institut, Langen, Germany.

出版信息

J Virol. 2015 Dec 30;90(7):3330-41. doi: 10.1128/JVI.03109-15.

DOI:10.1128/JVI.03109-15
PMID:26719264
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4794700/
Abstract

UNLABELLED

In addition to infectious viral particles, hepatitis B virus-replicating cells secrete large amounts of subviral particles assembled by the surface proteins, but lacking any capsid and genome. Subviral particles form spheres (22-nm particles) and filaments. Filaments contain a much larger amount of the large surface protein (LHBs) compared to spheres. Spheres are released via the constitutive secretory pathway, while viral particles are ESCRT-dependently released via multivesicular bodies (MVBs). The interaction of virions with the ESCRT machinery is mediated by α-taxilin that connects the viral surface protein LHBs with the ESCRT component tsg101. Since filaments in contrast to spheres contain a significant amount of LHBs, it is unclear whether filaments are released like spheres or like virions. To study the release of subviral particles in the absence of virion formation, a core-deficient HBV mutant was generated. Confocal microscopy, immune electron microscopy of ultrathin sections and isolation of MVBs revealed that filaments enter MVBs. Inhibition of MVB biogenesis by the small-molecule inhibitor U18666A or inhibition of ESCRT functionality by coexpression of transdominant negative mutants (Vps4A, Vps4B, and CHMP3) abolishes the release of filaments while the secretion of spheres is not affected. These data indicate that in contrast to spheres which are secreted via the secretory pathway, filaments are released via ESCRT/MVB pathway like infectious viral particles.

IMPORTANCE

This study revises the current model describing the release of subviral particles by showing that in contrast to spheres, which are secreted via the secretory pathway, filaments are released via the ESCRT/MVB pathway like infectious viral particles. These data significantly contribute to a better understanding of the viral morphogenesis and might be helpful for the design of novel antiviral strategies.

摘要

未标记

除了感染性病毒颗粒外,乙型肝炎病毒复制细胞还分泌大量由表面蛋白组装而成的亚病毒颗粒,但缺乏任何衣壳和基因组。亚病毒颗粒形成球体(22纳米颗粒)和丝状结构。与球体相比,丝状结构含有大量的大表面蛋白(LHBs)。球体通过组成型分泌途径释放,而病毒颗粒则通过多囊泡体(MVBs)以依赖内体分选转运复合体(ESCRT)的方式释放。病毒粒子与ESCRT机制的相互作用由α-紫杉醇介导,它将病毒表面蛋白LHBs与ESCRT组分tsg101连接起来。由于与球体相比,丝状结构含有大量的LHBs,尚不清楚丝状结构是像球体一样释放,还是像病毒粒子一样释放。为了研究在无病毒粒子形成的情况下亚病毒颗粒的释放,构建了一种核心缺陷型乙肝病毒突变体。共聚焦显微镜、超薄切片免疫电子显微镜和MVBs的分离显示丝状结构进入MVBs。小分子抑制剂U18666A对MVB生物发生的抑制或共表达显性负突变体(Vps4A、Vps4B和CHMP3)对ESCRT功能的抑制消除了丝状结构的释放,而球体的分泌不受影响。这些数据表明,与通过分泌途径分泌的球体不同,丝状结构像感染性病毒颗粒一样通过ESCRT/MVB途径释放。

重要性

本研究通过表明与通过分泌途径分泌的球体不同,丝状结构像感染性病毒颗粒一样通过ESCRT/MVB途径释放,对描述亚病毒颗粒释放的当前模型进行了修正。这些数据显著有助于更好地理解病毒形态发生,可能有助于设计新的抗病毒策略。

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