H9N2 virus-derived M1 protein promotes H5N6 virus release in mammalian cells: Mechanism of avian influenza virus inter-species infection in humans

H5N6 highly pathogenic avian influenza virus (HPAIV) clade 2.3.4.4 not only exhibits unprecedented intercontinental spread in poultry, but can also cause serious infection in humans, posing a public health threat. Phylogenetic analyses show that 40% (8/20) of H5N6 viruses that infected humans carried H9N2 virus-derived internal genes. However, the precise contribution of H9N2 virus-derived internal genes to H5N6 virus infection in humans is unclear. Here, we report on the functional contribution of the H9N2 virus-derived matrix protein 1 (M1) to enhanced H5N6 virus replication capacity in mammalian cells. Unlike H5N1 virus-derived M1 protein, H9N2 virus-derived M1 protein showed high binding affinity for H5N6 hemagglutinin (HA) protein and increased viral progeny particle release in different mammalian cell lines. Human host factor, G protein subunit beta 1 (GNB1), exhibited strong binding to H9N2 virus-derived M1 protein to facilitate M1 transport to budding sites at the cell membrane. GNB1 knockdown inhibited the interaction between H9N2 virus-derived M1 and HA protein, and reduced influenza virus-like particles (VLPs) release. Our findings indicate that H9N2 virus-derived M1 protein promotes avian H5N6 influenza virus release from mammalian, in particular human cells, which could be a major viral factor for H5N6 virus cross-species infection. Author summaryH9N2 avian influenza viruses (AIVs), through reassortment of their internal genes with other circulating AIVs subtypes (H5N6, H7N9, H10N8 and H10N3 viruses), are known to enable the resulting novel reassortants to infect humans. However, the precise roles of H9N2 virus-derived internal genes in human infection remain unknown. Here, we found that H9N2 virus-derived (but not H5N1 virus-derived) M1 protein showed strong interaction with host GNB1 protein to enhance M1 protein transport to budding sites at the cell membrane to promote progeny virus release, hence facilitating H5N6 reassortants to infect human cells.

Automated summary

The study found that the H9N2 virus-derived M1 protein interacts with host protein GNB1 to enhance M1 protein transport to budding sites at the cell membrane, promoting progeny virus release and facilitating H5N6 reassortants to infect human cells.