The NS1 protein of influenza B virus binds 5’-triphosphorylated dsRNA to suppress RIG-I activation and the host antiviral response

Author:

Woltz RyanORCID,Schweibenz BrandonORCID,Tsutakawa Susan E.ORCID,Zhao Chen,Ma LiChung,Shurina BenORCID,Hura Gregory L.ORCID,John Rachael,Vorobiev SergeyORCID,Swapna GVTORCID,Solotchi MihaiORCID,Tainer John A.ORCID,Krug Robert M.ORCID,Patel Smita S.ORCID,Montelione Gaetano T.ORCID

Abstract

SUMMARYInfluenza A and B viruses overcome the host antiviral response to cause a contagious and often severe human respiratory disease. Here, integrative structural biology and biochemistry studies on non- structural protein 1 of influenza B virus (NS1B) reveal a previously unrecognized viral mechanism for innate immune evasion. Conserved basic groups of its C-terminal domain (NS1B-CTD) bind 5’- triphosphorylated double-stranded RNA (5’ppp-dsRNA), the primary pathogen-associated feature that activates the host retinoic acid-inducible gene I protein (RIG-I) to initiate interferon synthesis and the cellular antiviral response. Like RIG-I, NS1B-CTD preferentially binds blunt-end 5’ppp-dsRNA. NS1B-CTD also competes with RIG-I for binding 5’ppp-dsRNA, and thus suppresses activation of RIG-I’s ATPase activity. Although the NS1B N-terminal domain also binds dsRNA, it utilizes a different binding mode and lacks 5’ppp-dsRNA end preferences. In cells infected with wild-type influenza B virus, RIG-I activation is inhibited. In contrast, RIG-I activation and the resulting phosphorylation of transcription factor IRF-3 are not inhibited in cells infected with a mutant virus encoding NS1B with a R208A substitution it its CTD that eliminates its 5’ppp-dsRNA binding activity. These results reveal a novel mechanism in which NS1B binds 5’ppp-dsRNA to inhibit the RIG-I antiviral response during influenza B virus infection, and open the door to new avenues for antiviral drug discovery.

Publisher

Cold Spring Harbor Laboratory

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