丙型肝炎病毒包膜蛋白E1结合PERK并抑制未折叠蛋白反应。

The Open Virology Journal Pub Date : 2013-03-22 Print Date: 2013-01-01 DOI:10.2174/1874357901307010037
Philip A Egan, Michal Sobkowiak, Shiu-Wan Chan
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引用次数: 11

摘要

未折叠蛋白反应(UPR)是一种细胞适应性反应,其功能是减轻内质网(ER)中蛋白质错误折叠引起的应激。我们和其他人之前已经证明,感染丙型肝炎病毒(HCV)或病毒蛋白的表达可以触发普遍定期审查。HCV是一种引起人类慢性疾病的单链阳性RNA病毒。它的基因组编码两个包膜蛋白E1和E2,它们在内质网中成熟,形成非共价结合的天然复合物和二硫化物结合的聚集体。除了内质网靶向蛋白外,胞质形式也已被证实。我们之前已经表明,靶向ER的E1和E2能够引发UPR,而其他人已经表明,靶向细胞质的E2可以结合内质网应激激酶PERK来抑制UPR。在本报告中,我们进一步证明了另一种囊膜蛋白E1,在其细胞质形式下,也可以结合PERK并抑制UPR。通过gst -pull - down实验,我们发现E1与PERK的细胞质结构域结合,表明E1和PERK的相互作用发生在细胞质中。通过报告基因检测和Western blotting,我们发现胞质E1可以抑制uprr诱导的BiP和CHOP启动子活性,降低uprr诱导的CHOP表达水平。总之,这些结果表明,内质网和细胞质形式的HCV包膜蛋白的不同功能取决于它们的亚细胞定位。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Hepatitis C Virus Envelope Protein E1 Binds PERK and Represses the Unfolded Protein Response.

Hepatitis C Virus Envelope Protein E1 Binds PERK and Represses the Unfolded Protein Response.

Hepatitis C Virus Envelope Protein E1 Binds PERK and Represses the Unfolded Protein Response.

Hepatitis C Virus Envelope Protein E1 Binds PERK and Represses the Unfolded Protein Response.

Unfolded protein response (UPR) is a cellular adaptive response which functions to reduce stress caused by misfolded proteins in the endoplasmic reticulum (ER). We and others have previously shown that infection with hepatitis C virus (HCV) or expression of the viral proteins can trigger the UPR. HCV is a single-stranded positive-sense RNA virus causing chronic diseases in humans. Its genome encodes two envelope proteins E1 and E2 that mature in the ER to form non-covalently bound native complex and disulphide-bonded aggregates. Apart from the ER targeting proteins, cytosolic forms have been documented. We have previously shown that the ER-targeting E1 and E2 are capable of eliciting the UPR whereas others have shown that the cytosolic-targeting E2 can bind to the ER stress kinase PERK to dampen the UPR. In this report, we further show that the other envelope protein E1, in its cytosolic form, can also bind PERK and dampen the UPR. Using GST-pulldown assay, we show that E1 binds to the cytoplasmic domain of PERK, suggesting interaction of E1 and PERK takes place in the cytoplasm. Using reporter gene assay and Western blotting, we show that cytosolic E1 can repress UPR-induced BiP and CHOP promoter activity and reduce UPR-induced CHOP expression level. Altogether these results suggest opposing functions of ER- and cytosolic forms of HCV envelope proteins depending on their subcellular localization.

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