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Virulence
. 2025 Nov 19:2591462.
doi: 10.1080/21505594.2025.2591462. Online ahead of print. Epidemiology, evolution, and biological characteristics of avian influenza a (H11) viruses from wild birds
Zhiguo Zhao 1 , Jingman Tian 1 , Xiaoli Bai 1 , Minghui Li 1 , Xingdong Song 1 , Jiaying Li 1 , Jianzhong Shi 1 , Huihui Kong 1 , Xianying Zeng 1 , Guobin Tian 1 , Jinxiong Liu 1 , Chengjun Li 1 , Hualan Chen 1 , Yanbing Li 1
Affiliations
H11 subtype avian influenza viruses (AIVs) have been identified in both wild and domestic birds. H11N9 viruses from wild birds provided the NA gene to human H7N9 virus in 2013 in China, which caused five waves of human infections. During active surveillance in wild birds in China, 17 H11 viruses were isolated between December 2022 and January 2024, including six H11N1, one H11N2, one H11N3, and nine H11N9. The epidemiology of H11 subtype viruses in public databases revealed that they distributed across seven continents, and more than 54.9% of H11 viruses originated from wild Anseriformes. Phylogenetic analysis of the HA genes indicated that H11 viruses were classified into Eurasian and North American lineages, and our isolates belonged to the Eurasian lineage. Bayesian phylogeographic analysis suggested that Bangladesh served as a crucial geographical transmission center for H11 viruses in Eurasian lineage. Reassortment indicated that the H11 isolates in the study underwent complex genomic recombination with various subtype AIVs circulating in wild and domestic birds, including the clade 2.3.4.4b H5N1 highly pathogenic viruses, and formed seven genotypes. Notably, 17 H11 isolates acquired several mutations associated with enhanced human-type receptor binding in HA (S137A) and increased mammalian virulence in PB1 (D3V, D622G), PB1-F2 (N66S), M1 (N30D, I43M, T215A), and NS1 (P42S, I106M). Seven representative viruses exhibited dual receptor binding specificity and could infect mice directly without prior adaptation. These findings highlight the potential public health risks posed by H11 viruses from wild birds and emphasize the necessity of enhancing routine surveillance.
Keywords: Avian influenza virus; H11 subtype; pathogenicity; phylogeny; reassortment; receptor binding specificity; wild birds.
. 2025 Nov 19:2591462.
doi: 10.1080/21505594.2025.2591462. Online ahead of print. Epidemiology, evolution, and biological characteristics of avian influenza a (H11) viruses from wild birds
Zhiguo Zhao 1 , Jingman Tian 1 , Xiaoli Bai 1 , Minghui Li 1 , Xingdong Song 1 , Jiaying Li 1 , Jianzhong Shi 1 , Huihui Kong 1 , Xianying Zeng 1 , Guobin Tian 1 , Jinxiong Liu 1 , Chengjun Li 1 , Hualan Chen 1 , Yanbing Li 1
Affiliations
- PMID: 41258791
- DOI: 10.1080/21505594.2025.2591462
H11 subtype avian influenza viruses (AIVs) have been identified in both wild and domestic birds. H11N9 viruses from wild birds provided the NA gene to human H7N9 virus in 2013 in China, which caused five waves of human infections. During active surveillance in wild birds in China, 17 H11 viruses were isolated between December 2022 and January 2024, including six H11N1, one H11N2, one H11N3, and nine H11N9. The epidemiology of H11 subtype viruses in public databases revealed that they distributed across seven continents, and more than 54.9% of H11 viruses originated from wild Anseriformes. Phylogenetic analysis of the HA genes indicated that H11 viruses were classified into Eurasian and North American lineages, and our isolates belonged to the Eurasian lineage. Bayesian phylogeographic analysis suggested that Bangladesh served as a crucial geographical transmission center for H11 viruses in Eurasian lineage. Reassortment indicated that the H11 isolates in the study underwent complex genomic recombination with various subtype AIVs circulating in wild and domestic birds, including the clade 2.3.4.4b H5N1 highly pathogenic viruses, and formed seven genotypes. Notably, 17 H11 isolates acquired several mutations associated with enhanced human-type receptor binding in HA (S137A) and increased mammalian virulence in PB1 (D3V, D622G), PB1-F2 (N66S), M1 (N30D, I43M, T215A), and NS1 (P42S, I106M). Seven representative viruses exhibited dual receptor binding specificity and could infect mice directly without prior adaptation. These findings highlight the potential public health risks posed by H11 viruses from wild birds and emphasize the necessity of enhancing routine surveillance.
Keywords: Avian influenza virus; H11 subtype; pathogenicity; phylogeny; reassortment; receptor binding specificity; wild birds.