Genetic characteristics of influenza A H3N2 virus influenza season in Xiangyang City in 2022-2023

Jing Shi; Fangli Tong; Shengyang Zhu; Yunxia Gan; Lu MA; Narenqimuge Tong; Bin Fang; Peng Chen; Gang Yang

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Genetic characteristics of influenza A H3N2 virus influenza season in Xiangyang City in 2022-2023

VernacularTitle:2022—2023年襄阳市流感监测甲型H3N2流感病毒遗传特性分析
Author: Jing SHI ¹ ; Fangli TONG ¹ ; Shengyang ZHU ¹ ; Yunxia GAN ¹ ; Lu MA ¹ ; Narenqimuge TONG ¹ ; Bin FANG ² ; Peng CHEN ¹ ; Gang YANG ¹
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1. Xiangyang Center for Disease Control and Prevention , Xiangyang , Hubei 430074 , China
2. Hubei Provincial Center for Disease Control and Prevention ,Wuhan , Hubei 430079 , China
Publication Type:Journal Article
Keywords: H3N2 influenza virus; HA gene; NA gene; Gene characteristics
From: Journal of Public Health and Preventive Medicine 2024;35(3):32-36
CountryChina
Language:Chinese
Abstract: Objective To analyze the prevalence and genetic characteristics of influenza A(H3N2) viruses in the city of Xiangyang in 2022-2023, and to provide a scientific basis for predicting the epidemic and mutation of influenza virus. Methods Throat swab specimens of the influenza like cases were collected from national influenza monitoring sentinel hospitals in Xiangyang every week. RNA was extracted from the specimens for influenza diagnosing using real-time RT-PCR．Viruses were isolated from H3N2 positive specimens, and HA and NA genes were amplified and sequenced．3D modeling analyses were conducted. Results The gene phylogenetic tree showed that the H3N2 isolates in 2022-2023 belonged to 3C.2a1b.2a1 and 3C.2a1b.2a2 branches, respectively. The A(H3N2) influenza virus strains all had amino acid point mutation sites on important antigenic determinants of HA protein. The epitope mutations of the 2022 A(H3N2) strain mainly occurred in regions B, C, and D. The epitope mutations of the A(H3N2) strain in 2023 mainly occurred in regions C and D. Different glycosylation sites of HA gene were found in 2022-2023 strains. No variation was found in key amino acid sites associated with neuraminidase inhibitor resistance. The difference of overall structure was not obvious in the three-dimensional simulation structure diagram. Conclusion The A(H3N2) influenza strains isolated in this study have shown antigenic drift, especially the mutation of HA, which may affect the protective effect of the vaccine on the local population and lead to influenza epidemic. The variations of HA and NA suggest that close attention should be paid to the epidemic and genetic variation of H3N2 subtype influenza virus, to provide a scientific basis for the selection of influenza virus vaccine strains and the prevention and control of influenza.