H9N2 avian influenza viruses (AIVs) circulate globally in poultry and have become the dominant AIV subtype in China in recent years. Previously, we demonstrated that the H9N2 virus (A/chicken/Eastern China/SDKD1/2015) naturally harbors a mammalian-adaptive molecular factor (627K) in the PB2 protein and is weakly pathogenic in mice. Here, we focused on new markers for virulence in mammals. A mouse-adapted H9N2 virus was serially passaged in mice by infecting their lungs. As expected, infected mice showed clinical symptoms and died at passage six. A comparison between the wild-type and mouse-adapted virus sequences identified amino acid substitutions in the hemagglutinin (HA) protein. H9N2 viruses with the T187P + M227L double mutation exhibited an increased affinity to human-type (SAα2,6Gal) receptors and significantly enhanced viral attachment to mouse lung tissues, which contributed to enhancing viral replication and virulence in mice. Additionally, HA with the T187P + M227L mutation enabled H9N2 viral transmission in guinea pigs via direct contact. AIV pathogenicity in mice is a polygenic trait. Our results demonstrated that these HA mutations might be combined with PB2-627K to significantly increase H9N2 virulence in mice, and this enhanced virulence was achieved in other H9N2 AIVs by generating the same combination of mutations. In summary, our study identified novel key elements in the HA protein that are required for H9N2 pathogenicity in mice and provided valuable insights into pandemic preparedness against emerging H9N2 strains.
Keywords: H9N2; Hemagglutinin (HA); Mammalian adaptation; PB2-627K; Pathogenicity; Transmissibility.
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