The amino acid variation at hemagglutinin sites 145, 153, 164 and 200 modulate antigenicity andreplication of H9N2 avian influenza virus.

H9N2 avian influenza virus (AIV), one of the predominant subtypes circulating in the poultry industry, inflicts substantial economic damage. Mutations in the hemagglutinin (HA) and neuraminidase (NA) proteins of H9N2 frequently alter viral antigenicity and replication. In this paper, we analyzed the HA genetic sequences and antigenic properties of 26 H9N2 isolates obtained from chickens in China between 2012 and 2019. The results showed that these H9N2 viruses all belonged to h9.4.2.5, and were divided into two clades. We assessed the impact of amino acid substitutions at HA sites 145, 149, 153, 164, 167, 168, and 200 on antigenicity, and found that a mutation at site 164 significantly modified antigenic characteristics. Amino acid variations at sites 145, 153, 164 and 200 affected virus's hemagglutination and the growth kinetics in mammalian cells. These results underscore the critical need for ongoing surveillance of the H9N2 virus and provide valuable insights for vaccine development.

Isolation and genomic characterization of chicken infectious anemia virus in Jiangsu province of China during 2020-2022.

As an immunosuppressive disease virus, chicken infectious anemia virus (CIAV) mainly infects chickens, causing aplastic anemia and systemic lymphoid tissue atrophy. In recent years, the prevalence of CIAV in the poultry industry globally has caused huge economic losses. In this study, a total of 223 clinical samples, including anal swabs, tissues, blood, and vaccines, were collected from 19 broiler farms or breeding companies in Jiangsu province, with symptoms of significant anemia and immunosuppression during 2020-2022. Among them, 75 samples (75/223, 33.6%) were positive for CIAV in polymerase chain reaction (PCR) test, and 20 CIAV strains were successfully isolated. The phylogenetic trees of the 20 isolates and 42 CIAV strains deposited in GenBank formed four distinct groups (A-D). And the isolates mainly belonged to Group A but with high genetic diversity. Analysis for VP1 indicated that these isolates possess key characteristics of highly pathogenic strains. Meanwhile, VP2 and VP3 were much conserved with much fewer mutations compare to VP1. The above epidemiological study of CIAV provides novel insights into molecular characterization of CIAV and lays the foundation for developing efficient strategies for control of CIAV in China.

Molecular epidemiology of infectious bronchitis virus in eastern and southern China during 2021-2023.

As a highly infectious and contagious pathogen in chickens, infectious bronchitis virus (IBV) is currently grouped into nine genotypes (GI to GIX). However, the classification of serotypes of IBV is still not clear. In this study, 270 field strains of IBV were isolated from dead or diseased chicken flocks in eastern and southern China during January 2021 to April 2023. These isolated IBV strains could be classified into 2 genotypes, GI (including 5 lineages GI-1, GI-13, GI-19, GI-22, and GI-28) and GVI based on the complete S1 sequence. Further analysis showed that the GI-19, GI-13, GI-22, GI-28, and GVI were the dominant genotypes with the proportions of 61.48, 8.89, 8.89, 7.78, and 8.89% respectively, and the homology of S1 protein of these isolates ranged from 86.85 to 100% in GI-19, 92.22 to 100% in GI-13, 83.1 to 100% in GI-22, 94.81 to 100% in GI-28 and 90.0 to 99.8% in GVI, respectively. Moreover, cross-neutralization test with sera revealed that these isolates in GI-19 lineage could be classified into at least 3 serotypes according to the antigenic relationship. In addition, structure assay using PyMOL indicated that one mutation such as S120 in receptor binding site (RBD) of GI-19 might alter the antigenicity and conformation of S protein of IBV. Overall, our data demonstrate that not only multiple genotypes, but also multiple serotypes in a single genotype or lineage have been co-circulated in eastern and southern China, providing novel insights into the molecular evolution of the antigenicity of IBV and highlighting the significance of the selection of the dominant isolate for vaccine development in IBV endemic region.