RNASEK interacting with PEDV structural proteins facilitates virus entry via clathrin-mediated endocytosis.

IF 4 2区医学 Q2 VIROLOGY

Journal of Virology Pub Date : 2025-02-25 Epub Date: 2025-01-21 DOI:10.1128/jvi.01760-24

Wenzhen Qin, Ning Kong, Shengsong Xie, Hailong Liu, Xinyu Yang, Yahe Wang, Xinyu Cao, Yuchang Liu, Jiarui Wang, He Sun, Wu Tong, Hai Yu, Hao Zheng, Wen Zhang, Guangzhi Tong, Tongling Shan

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Abstract

Porcine epidemic diarrhea virus (PEDV), as a type of Alphacoronavirus causing acute diarrhea and high death rate among sucking piglets, poses great financial damage to the swine industry. Nevertheless, the molecular mechanism whereby PEDV enters host cells is unclear, limiting the development of PED vaccines and anti-PEDV agents. The present study found that the host protein ribonuclease kappa (RNASEK) was regulated by USF2, a transcription factor, and facilitated the PEDV replication. RNASEK was identified as a novel binding partner of PEDV, which interacted with a spike (S), envelope (E), and membrane (M) proteins on PEDV virion surfaces to increase the uptake not for attachment of PEDV virions. PEDV enters cells through the endocytosis pathways. RNASEK knockdown or RNASEK knockout assay revealed that through clathrin-mediated endocytosis (CME), RNASEK promoted the internalization of PEDV virions. Clathrin and the adaptor protein EPS15 only interacted with PEDV E protein, demonstrating that the RNASEK could target more virions through interaction with PEDV S, E, and M proteins to clathrin and EPS15 proteins rather than merely interacting with PEDV E protein to mediate the PEDV entry through CME. Moreover, our findings suggest that RNASEK, a newly identified host-entry factor, facilitates PEDV internalization by increasing the interaction of PEDV virions and EPS15-clathrin complex and may also provide a potential target for anti-PEDV therapies.IMPORTANCEPEDV is the causative pathogen of porcine diarrhea, which is a highly infectious acute intestinal condition, that poses significant economic damage to the swine industry. However, the existing PED vaccines fail to provide adequate protection for piglets against PEDV infection. Although PEDV replication in cells has been widely described, the mechanisms beneath PEDV entry of the host cells are incompletely understood. In this study, we showed that RNASEK, regulated by the transcription factor USF2, is a new host factor increasing PEDV infection in LLC-PK1 cells. RNASEK can bind to multiple structural proteins of PEDV (S, E, and M proteins), therefore increasing the interaction between PEDV virions, clathrin, and EPS15 to promote PEDV virion entry. Apart from unraveling the entry mechanisms of PEDV, our findings also contributed to facilitating the development of anti-PEDV agents and PED vaccines.

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RNASEK与PEDV结构蛋白相互作用，通过网格蛋白介导的内吞作用促进病毒进入。

猪流行性腹泻病毒（PEDV）是一种引起哺乳仔猪急性腹泻和高死亡率的甲型冠状病毒，给养猪业造成了巨大的经济损失。然而，PEDV进入宿主细胞的分子机制尚不清楚，限制了PED疫苗和抗PEDV药物的开发。本研究发现宿主蛋白核糖核酸酶kappa （RNASEK）受转录因子USF2的调控，促进PEDV的复制。RNASEK被确定为PEDV的一种新的结合伙伴，它与PEDV病毒粒子表面的刺突(S)、包膜(E)和膜(M)蛋白相互作用，以增加对PEDV病毒粒子的摄取，而不是附着在PEDV病毒粒子上。PEDV通过内吞途径进入细胞。RNASEK敲除或RNASEK敲除实验显示，RNASEK通过网格蛋白介导的内吞作用（CME）促进PEDV病毒粒子的内化。网格蛋白和接头蛋白EPS15仅与PEDV E蛋白相互作用，表明RNASEK可以通过与PEDV S、E和M蛋白相互作用，将更多的病毒粒子靶向到网格蛋白和EPS15蛋白上，而不仅仅是与PEDV E蛋白相互作用，介导PEDV通过CME进入。此外，我们的研究结果表明，RNASEK，一个新发现的宿主进入因子，通过增加PEDV病毒粒子和eps15 -网格蛋白复合物的相互作用，促进PEDV内化，也可能提供抗PEDV治疗的潜在靶点。猪腹泻是一种传染性极强的急性肠道疾病，pedv是猪腹泻的致病病原体，对养猪业造成重大经济损失。然而，现有的PED疫苗不能提供足够的保护仔猪免受PEDV感染。尽管PEDV在细胞中的复制已被广泛描述，但PEDV进入宿主细胞的机制尚不完全清楚。在本研究中，我们发现RNASEK受转录因子USF2调控，是一种新的宿主因子，可增加LLC-PK1细胞的PEDV感染。RNASEK可以结合PEDV的多种结构蛋白（S、E和M蛋白），从而增加PEDV病毒粒子、网格蛋白和EPS15之间的相互作用，促进PEDV病毒粒子的进入。除了揭示PEDV的进入机制外，我们的发现还有助于促进抗PEDV药物和PED疫苗的开发。

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来源期刊

Journal of Virology 医学-病毒学

CiteScore

10.10

自引率

7.40%

发文量

906

审稿时长

1 months

期刊介绍： Journal of Virology (JVI) explores the nature of the viruses of animals, archaea, bacteria, fungi, plants, and protozoa. We welcome papers on virion structure and assembly, viral genome replication and regulation of gene expression, genetic diversity and evolution, virus-cell interactions, cellular responses to infection, transformation and oncogenesis, gene delivery, viral pathogenesis and immunity, and vaccines and antiviral agents.