Dihydromyricetin is a new inhibitor of influenza polymerase PB2 subunit and influenza-induced inflammation

Abstract

Development of new and effective anti-influenza drugs is critical for the treatment of influenza virus infection. The polymerase basic 2 (PB2) subunit as a core subunit of influenza A virus RNA polymerase complex is considered to be an attractive drug target for anti-influenza drug discovery. Dihydromyricetin, as a natural flavonoid, has a wide range of biological activities, but its anti-influenza A virus activity is ambiguous. Here, we found dihydromyricetin could inhibit the replication of a variety of influenza A virus strains. Mechanism studies demonstrated that dihydromyricetin reduced viral polymerase activity via selective inhibition of viral PB2 subunit, and decreased relative amounts of viral mRNA and genomic RNA during influenza A virus infection. The binding affinity and molecular docking analyses revealed that dihydromyricetin interacted with the PB2 cap-binding pocket, functioned as a cap-binding competitor. Interestingly, dihydromyricetin also reduced cellular immune injury by inhibiting TLR3 signaling pathway. Additionally, combination treatment of dihydromyricetin with zanamivir exerted a synergistic anti-influenza effect. Altogether, our experiments reveal the antiviral and anti-inflammatory activities of dihydromyricetin in vitro against influenza virus infection, which provides a new insight into the development of novel anti-influenza drugs.