Wang Dang, Fang Liurong, Shi Yanling, Zhang Huan, Gao Li, Peng Guiqing, Chen Huanchun, Li Kui, Xiao Shaobo
State Key Laboratory of Agricultural Microbiology, College of Veterinary Medicine, Huazhong Agricultural University, Wuhan, China The Cooperative Innovation Center for Sustainable Pig Production, Wuhan, China.
Department of Microbiology, Immunology and Biochemistry, University of Tennessee Health Science Center, Memphis, Tennessee, USA.
J Virol. 2015 Dec 9;90(4):2090-101. doi: 10.1128/JVI.02514-15. Print 2016 Feb 15.
Porcine epidemic diarrhea virus (PEDV) is an enteropathogenic coronavirus causing lethal watery diarrhea in piglets. Since 2010, a PEDV variant has spread rapidly in China, and it emerged in the United States in 2013, posing significant economic and public health concerns. The ability to circumvent the interferon (IFN) antiviral response, as suggested for PEDV, promotes viral survival and regulates pathogenesis of PEDV infections, but the underlying mechanisms remain obscure. Here, we show that PEDV-encoded 3C-like protease, nsp5, is an IFN antagonist that proteolytically cleaves the nuclear transcription factor kappa B (NF-κB) essential modulator (NEMO), an essential adaptor bridging interferon-regulatory factor and NF-κB activation. NEMO is cleaved at glutamine 231 (Q231) by PEDV, and this cleavage impaired the ability of NEMO to activate downstream IFN production and to act as a signaling adaptor of the RIG-I/MDA5 pathway. Mutations specifically disrupting the cysteine protease activity of PEDV nsp5 abrogated NEMO cleavage and the inhibition of IFN induction. Structural analysis suggests that several key residues outside the catalytic sites of PEDV nsp5 probably impact NEMO cleavage by modulating potential interactions of nsp5 with their substrates. These data show that PEDV nsp5 disrupts type I IFN signaling by cleaving NEMO. Previously, we and others demonstrated that NEMO is also cleaved by 3C or 3C-like proteinases of picornavirus and artertivirus. Thus, NEMO probably represents a prime target for 3C or 3C-like proteinases of different viruses.
The continued emergence and reemergence of porcine epidemic diarrhea virus (PEDV) underscore the importance of studying how this virus manipulates the immune responses of its hosts. During coevolution with its hosts, PEDV has acquired mechanisms to subvert host innate immune responses for its survival advantage. At least two proteins encoded by PEDV have been identified as interferon (IFN) antagonists, papain-like protease (PLP) and N protein. Here, we report that the PEDV nsp5 gene, which encodes the 3C-like protease of PEDV, is another IFN antagonist. Mechanistically, the cysteine protease activity of PEDV nsp5 mediates proteolysis of NEMO, the key adaptor for IFN synthesis, and NEMO is cleaved at glutamine 231 (Q231). The new molecular details and determinants impacting NEMO scission by PEDV nsp5 delineated in this study are fundamental to our understanding of critical virus-host interactions that determine PEDV pathogenesis.
猪流行性腹泻病毒(PEDV)是一种肠道致病性冠状病毒,可导致仔猪致命性水样腹泻。自2010年以来,一种PEDV变异株在中国迅速传播,并于2013年在美国出现,引起了重大的经济和公共卫生问题。如对PEDV所提出的,规避干扰素(IFN)抗病毒反应的能力促进了病毒的存活并调节了PEDV感染的发病机制,但其潜在机制仍不清楚。在这里,我们表明PEDV编码的3C样蛋白酶nsp5是一种IFN拮抗剂,它能蛋白水解切割核转录因子κB(NF-κB)必需调节剂(NEMO),NEMO是连接干扰素调节因子和NF-κB激活的必需衔接蛋白。NEMO在谷氨酰胺231(Q231)处被PEDV切割,这种切割损害了NEMO激活下游IFN产生以及作为RIG-I/MDA5途径信号衔接蛋白的能力。特异性破坏PEDV nsp5半胱氨酸蛋白酶活性的突变消除了NEMO切割和IFN诱导的抑制。结构分析表明,PEDV nsp5催化位点外的几个关键残基可能通过调节nsp5与其底物的潜在相互作用来影响NEMO切割。这些数据表明PEDV nsp通过切割NEMO破坏I型IFN信号传导。此前,我们和其他人证明NEMO也被小RNA病毒和动脉炎病毒的3C或3C样蛋白酶切割。因此,NEMO可能是不同病毒3C或3C样蛋白酶的主要靶标。
猪流行性腹泻病毒(PEDV)的持续出现和再次出现凸显了研究该病毒如何操纵其宿主免疫反应的重要性。在与其宿主的共同进化过程中,PEDV获得了颠覆宿主固有免疫反应以获取生存优势的机制。PEDV编码的至少两种蛋白质已被鉴定为干扰素(IFN)拮抗剂,即木瓜样蛋白酶(PLP)和N蛋白。在这里,我们报告编码PEDV 的3C样蛋白酶的PEDV nsp5基因是另一种IFN拮抗剂。从机制上讲,PEDV nsp5的半胱氨酸蛋白酶活性介导了IFN合成关键衔接蛋白NEMO的蛋白水解,并且NEMO在谷氨酰胺231(Q231)处被切割。本研究中描述的影响PEDV nsp5切割NEMO的新分子细节和决定因素对于我们理解决定PEDV发病机制的关键病毒-宿主相互作用至关重要。
