一种核苷酸交换因子促进无包膜病毒猿猴病毒40从内质网到细胞质的膜穿透。
A nucleotide exchange factor promotes endoplasmic reticulum-to-cytosol membrane penetration of the nonenveloped virus simian virus 40.
作者信息
Inoue Takamasa, Tsai Billy
机构信息
Department of Cell and Developmental Biology, University of Michigan Medical School, Ann Arbor, Michigan, USA.
Department of Cell and Developmental Biology, University of Michigan Medical School, Ann Arbor, Michigan, USA
出版信息
J Virol. 2015 Apr;89(8):4069-79. doi: 10.1128/JVI.03552-14. Epub 2015 Feb 4.
UNLABELLED
The nonenveloped simian polyomavirus (PyV) simian virus 40 (SV40) hijacks the endoplasmic reticulum (ER) quality control machinery to penetrate the ER membrane and reach the cytosol, a critical infection step. During entry, SV40 traffics to the ER, where host-induced conformational changes render the virus hydrophobic. The hydrophobic virus binds and integrates into the ER lipid bilayer to initiate membrane penetration. However, prior to membrane transport, the hydrophobic SV40 recruits the ER-resident Hsp70 BiP, which holds the virus in a transport-competent state until it is ready to cross the ER membrane. Here we probed how BiP disengages from SV40 to enable the virus to penetrate the ER membrane. We found that nucleotide exchange factor (NEF) Grp170 induces nucleotide exchange of BiP and releases SV40 from BiP. Importantly, this reaction promotes SV40 ER-to-cytosol transport and infection. The human BK PyV also relies on Grp170 for successful infection. Interestingly, SV40 mobilizes a pool of Grp170 into discrete puncta in the ER called foci. These foci, postulated to represent the ER membrane penetration site, harbor ER components, including BiP, known to facilitate viral ER-to-cytosol transport. Our results thus identify a nucleotide exchange activity essential for catalyzing the most proximal event before ER membrane penetration of PyVs.
IMPORTANCE
PyVs are known to cause debilitating human diseases. During entry, this virus family, including monkey SV40 and human BK PyV, hijacks ER protein quality control machinery to breach the ER membrane and access the cytosol, a decisive infection step. In this study, we pinpointed an ER-resident factor that executes a crucial role in promoting ER-to-cytosol membrane penetration of PyVs. Identifying a host factor that facilitates entry of the PyV family thus provides additional therapeutic targets to combat PyV-induced diseases.
未标记
无包膜的猴多瘤病毒(PyV)——猴病毒40(SV40)利用内质网(ER)质量控制机制穿透ER膜并进入细胞质,这是一个关键的感染步骤。在进入过程中,SV40转运至ER,宿主诱导的构象变化使病毒具有疏水性。疏水性病毒结合并整合到ER脂质双层中以启动膜穿透。然而,在膜转运之前,疏水性SV40招募内质网驻留的Hsp70——结合免疫球蛋白蛋白(BiP),后者将病毒保持在可运输状态,直到其准备好穿过ER膜。在此,我们探究了BiP如何从SV40上脱离以使病毒能够穿透ER膜。我们发现核苷酸交换因子(NEF)Grp170诱导BiP进行核苷酸交换并将SV40从BiP上释放。重要的是,该反应促进SV40从ER到细胞质的转运及感染。人类BK PyV成功感染也依赖于Grp170。有趣的是,SV40将一群Grp170募集到内质网中称为病灶的离散斑点中。这些病灶被认为代表ER膜穿透位点,含有内质网成分,包括已知促进病毒从ER到细胞质转运的BiP。因此,我们的结果确定了一种核苷酸交换活性,该活性对于催化PyV内质网穿透之前最接近的事件至关重要。
重要性
已知PyV可导致使人衰弱的人类疾病。在进入过程中,这个病毒家族,包括猴SV40和人类BK PyV,利用内质网蛋白质质量控制机制突破ER膜并进入细胞质,这是一个决定性的感染步骤。在这项研究中,我们确定了一种内质网驻留因子,其在促进PyV从内质网到细胞质的膜穿透中发挥关键作用。因此,鉴定促进PyV家族进入的宿主因子为对抗PyV诱导的疾病提供了额外的治疗靶点。
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