Lyssaviruses cause rabies, which is an acute neurological disease responsible for more than 59,000 human deaths annually and has no available effective treatments. The phosphoprotein (P) of lyssaviruses (lyssavirus-P) plays multiple roles in virus replication and immune evasion. Lyssavirus-P has been identified as the major type I interferon (IFN-I) antagonist, while the precise site and precise molecular mechanism remain unclear. Herein, we found that substitution of site 179 of lyssavirus-P from serine (Ser) to proline (Pro) impairs its antagonism function of IFN-I by sequence alignment and site mutations. Subsequent studies demonstrated that lyssavirus-P containing S179 specifically interacted with I-kappa B kinase ε (IKKε). Specifically, lyssavirus-P containing S179 interacted simultaneously with the kinase domain (KD) and scaffold dimerization domain (SDD) of IKKε, competing with TNF receptor-associated factor 3 (TRAF3) and IFN regulatory factor 3 (IRF3) for binding with IKKε, leading to the inhibition of IFN production. Furthermore, S179 was involved in the viral pathogenicity of the typical lyssavirus rabies virus in a mouse model. Interestingly, we found that S179 is conserved among most lyssavirus-P and functional for IFN antagonism. Collectively, we identified S179 of lyssavirus-P is essential for IFN-I inhibition, which provides deep insight into the immune evasion strategies of lyssaviruses. Interferon (IFN) and the IFN-induced cellular antiviral response constitute the first line of defense against viral invasion. Evading host innate immunity, especially IFN signaling, is the key step required for lyssaviruses to establish infection. In this study, S179 of lyssavirus phosphoprotein (lyssavirus-P) was identified as the key site for antagonizing IFN-I production. Mechanistically, lyssavirus-P containing S179 specifically targets the key kinase IKKε and disrupts its interaction with TRAF3 and IRF3. S179P mutation in the P protein of the typical lyssavirus rabies virus (RABV) attenuated its pathogenicity in a mouse model. Our findings provide deep insight into the immune evasion strategies of lyssaviruses, which is helpful for the development of effective antiviral therapeutics.

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http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9683011PMC
http://dx.doi.org/10.1128/jvi.01125-22DOI Listing

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