Abstract

Viral infection activates the type I interferons (IFNs) and cellular antiviral responses. Eukaryotic initiation factor 4A-III (eIF4A3) has been shown to promote influenza A virus (IAV) replication by promoting viral mRNA splicing and spliced mRNA nuclear export. Here, we identified eIF4A3 as a negative regulator of virus-triggered type I IFN induction. Our study found that eIF4A3 promoted multiple RNA viruses' replication by binding to IFN regulatory factor 3 (IRF3) and impaired the interaction between tank-binding kinase 1 (TBK1) and IRF3, leading to attenuation of the phosphorylation of IRF3 by TBK1, the formation of IRF3 dimer, and the nuclear translocation of IRF3. This impaired its biological functions in the nucleus, which blocked IRF3 binding to interferon-stimulated response element (ISRE) and the interaction of IRF3 and CBP/p300, resulting in inhibiting the transcription of IFN-β and downstream IFN-stimulated genes (ISGs), thereby impairing innate antiviral immune responses against RNA viruses. These findings reveal a previously unknown function of eIF4A3 in host innate immunity and establish a mechanistic link between eIF4A3 and IRF3 activation that expands potential therapeutic strategies for viral infectious diseases. IMPORTANCE Production of type I IFN is pivotal for the cellular antiviral immunity. Virus infection leads to the activation of transcription factor IRF3 and subsequent production of type I IFN to eliminate viral infection. Thus, the regulation of IRF3 activity is an important way to affect type I IFN production. IRF3 activation requires phosphorylation, dimerization, and nuclear translocation. Here, we first reported that eIF4A3, a member of DEAD box family, served as a negative regulator of antiviral innate immune responses by inhibiting IRF3 activation. Mechanistically, eIF4A3 binds to IRF3 to impair the recruitment of IRF3 by TBK1, which is independent of eIF4A3 ATP binding, ATPase, and RNA helicase activities. Our study delineates a common mechanism of eIF4A3 promoting replication of different RNA viruses and provides important insights into the negative regulation of host antiviral innate immune responses against virus infections.

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