Jiangsu Provincial Key Laboratory of Molecular Medicine, Medical School, Nanjing University, Nanjing 210093, China.
Jiangsu Provincial Center for Disease Control and Prevention, Nanjing 210009, China.
J Immunol. 2019 Feb 1;202(3):841-856. doi: 10.4049/jimmunol.1800576. Epub 2018 Dec 31.
Induction of type I IFNs during viral infection is crucial for host defense. IRF 3 and IRF7 play a critical role as key transcription factors in the activation of the IFN induction. Viruses have evolved a variety of strategies to evade innate immunity. Our previous studies have shown that the nonstructural protein (NSs) of the severe fever with thrombocytopenia syndrome virus (SFTSV) can suppress the IFN-β induction through its interaction with tank-binding kinase-1 and sequestering the inhibitor of nuclear factor kappa B kinase(IKK) complex into the inclusion bodies formed by NSs. In this study, we characterized the unique function of IRF7 in innate immunity and its role in inducing IFN-α in particular, regulated by NSs during the SFTSV infection in several cell types of human origin. Whereas IRF3 is constitutively expressed, IRF7 was significantly induced differentially in various cell types in response to SFTSV infection, promoted the induction of IFN-α2 and -α4, and further induced IFN-β, thus contributing to suppressing the viral replication. Our data indicate that NSs directly interacted with and sequestered IRF7 into the inclusion bodies, which is different from IRF3 indirectly interacting with NSs. Although interaction of NSs with IRF7 did not inhibit IRF7 phosphorylation, p-IRF7 was trapped in the inclusion bodies, resulting in a significant reduction of the IFN-α2 and -α4 induction and therefore enhanced viral replication. Interaction of the viral NSs with both IRF7 and IRF3 and subsequent sequestration of these transcription factors into viral inclusion bodies, a unique strategy used by this phlebovirus, may ensure effective evasion and suppression of host innate immunity.
病毒感染时诱导 I 型干扰素对于宿主防御至关重要。IRF3 和 IRF7 作为关键转录因子,在 IFN 诱导激活中发挥着关键作用。病毒进化出了多种策略来逃避先天免疫。我们之前的研究表明,严重发热伴血小板减少综合征病毒(SFTSV)的非结构蛋白(NSs)可以通过与 tank-binding kinase-1 相互作用并将核因子 kappa B 激酶(IKK)复合物抑制剂隔离到 NSs 形成的包含体内来抑制 IFN-β 的诱导。在这项研究中,我们在几种人类来源的细胞类型中研究了 NSs 在 SFTSV 感染期间对固有免疫的独特功能及其对 IFN-α的诱导作用,特别是对 IRF7 的作用。虽然 IRF3 是组成性表达的,但 IRF7 在不同的细胞类型中对 SFTSV 感染的反应差异显著,促进了 IFN-α2 和 -α4 的诱导,并进一步诱导了 IFN-β,从而有助于抑制病毒复制。我们的数据表明,NSs 直接与 IRF7 相互作用并将其隔离到包含体中,这与 NSs 间接与 IRF3 相互作用不同。尽管 NSs 与 IRF7 的相互作用并未抑制 IRF7 的磷酸化,但 p-IRF7 被捕获在包含体中,导致 IFN-α2 和 -α4 的诱导显著减少,从而增强了病毒复制。这种黄病毒独特的策略是 NSs 与 IRF7 和 IRF3 的相互作用,并随后将这些转录因子隔离到病毒包含体中,可能确保了有效的逃避和抑制宿主先天免疫。
