Litcius/Paper detail

Mutational antigenic landscape of prevailing H9N2 influenza virus hemagglutinin spectrum

Jiahao Zhang, Xiaomin Wang, Yiqun Chen, Hejia Ye, Shiping Ding, Tao Zhang, Yi Liu, Huanan Li, Lihong Huang, Wenbao Qi, Ming Liao

2023Cell Reports34 citationsDOIOpen Access PDF

Abstract

H9N2 influenza viruses are globally endemic in birds, and a sharp increase in human infections with H9N2 occurred during 2021 to 2022. In this study, we assess the antigenic and pathogenic impact of 23 hemagglutinin (HA) amino acid mutations. Our study reveals that three specific mutations, labeled R164Q, N166D, and I220T, are responsible for the binding of antibodies with escape mutations. Variants containing R164Q and I220T mutations increase viral replication in avian and mammalian cells. Furthermore, T150A and I220T mutations are found to enhance viral replication in mice, indicating that these mutations may have the potential to adapt mammals. Structure analysis reveals that residues 164 and 220 bearing R164Q and I220T mutations increase interactions with the surrounding residues. Our findings enrich current knowledge about the risk assessment regarding which predominant HA immune-escape mutations of H9N2 viruses may pose the greatest threat to the emergence of pandemics in birds and humans.

Topics & Concepts

Hemagglutinin (influenza)VirologyBiologyVirusViral replicationMutationInfluenza A virusInfluenza A virus subtype H5N1H5N1 genetic structureAntigenic driftPandemicGeneticsGeneCoronavirus disease 2019 (COVID-19)Infectious disease (medical specialty)MedicineDiseasePathologyInfluenza Virus Research StudiesRespiratory viral infections researchRNA and protein synthesis mechanisms