Viruses (Jan 2024)

Genomic Analyses Uncover Evolutionary Features of Influenza A/H3N2 Viruses in Yunnan Province, China, from 2017 to 2022

  • Meiling Zhang,
  • Jienan Zhou,
  • Ruize Ni,
  • Xiaonan Zhao,
  • Yaoyao Chen,
  • Yanhong Sun,
  • Zhaosheng Liu,
  • Xiaoyu Han,
  • Chunrui Luo,
  • Xiaoqing Fu,
  • Yong Shao

DOI
https://doi.org/10.3390/v16010138
Journal volume & issue
Vol. 16, no. 1
p. 138

Abstract

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Influenza A viruses evolve at a high rate of nucleotide substitution, thereby requiring continuous monitoring to determine the efficacy of vaccines and antiviral drugs. In the current study, we performed whole-genome sequencing analyses of 253 influenza A/H3N2 strains from Yunnan Province, China, during 2017–2022. The hemagglutinin (HA) segments of Yunnan A/H3N2 strains isolated during 2017–2018 harbored a high genetic diversity due to heterogeneous distribution across branches. The mutation regularity of the predominant antigenic epitopes of HA segments in Yunnan was inconsistent in different years. Some important functional mutations in gene segments associated with viral adaptation and drug tolerance were revealed. The rapid genomic evolution of Yunnan A/H3N2 strains from 2017 to 2022 mainly concentrated on segments, i.e., matrix protein 2 (M2), non-structural protein 1 (NS1), neuraminidase (NA), NS2, and HA, with a high overall non-synonymous/synonymous substitution ratio (dN/dS). Our results highlighted a decline in vaccine efficacy against the A/H3N2 circulating strains, particularly against the Yunnan 2021–2022 A/H3N2 strains. These findings aid our understanding of evolutionary characteristics and epidemiological monitoring of the A/H3N2 viruses and provide in-depth insights into the protective efficacy of influenza vaccines.

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