Major change in swine influenza virus diversity in France owing to emergence and widespread dissemination of a newly introduced H1N2 1C genotype in 2020.

IF 5.5 2区医学 Q1 VIROLOGY

Virus Evolution Pub Date : 2024-12-14 eCollection Date: 2025-01-01 DOI:10.1093/ve/veae112

Gautier Richard, Séverine Hervé, Amélie Chastagner, Stéphane Quéguiner, Véronique Beven, Edouard Hirchaud, Nicolas Barbier, Stéphane Gorin, Yannick Blanchard, Gaëlle Simon

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Abstract

Swine influenza A viruses (swIAVs) are a major cause of respiratory disease in pigs worldwide, presenting significant economic and health risks. These viruses can reassort, creating new strains with varying pathogenicity and cross-species transmissibility. This study aimed to monitor the genetic and antigenic evolution of swIAV in France from 2019 to 2022. Molecular subtyping revealed a marked increase in H1_avN2 cases from 2020 onwards, altering the previously stable subtypes' distribution. Whole-genome sequencing and phylogenetic analyses of H1_av (1C) strains identified 10 circulating genotypes, including 5 new genotypes. The most predominant genotype from 2020 onwards, denominated H1_avN2#E, was characterized by an HA-1C.2.4, an N2-Gent/84, and internal protein-encoding genes belonging to a newly defined subclade within the Eurasian avian-like (EA) lineage termed EA-DK. H1_avN2#E emerged in Brittany, the country's most pig-dense region, and rapidly became the most frequently detected swIAV genotype across France. This drastic change in the swIAV lineage proportions at a national scale was unprecedented, making H1_avN2#E a unique case for understanding swIAV evolution and spreading patterns. Phylogenetic analyses suggested an introduction of the H1_avN2#E genotype from a restricted source, likely originating from Denmark. It spread rapidly with low genetic diversity at the start of the epizootic in 2020, showing increasing diversification in 2021 and 2022 as the inferred population size grew and stabilized, and exhibited reassortments with other enzootic genotypes. Amino acid sequence alignments of H1_avN2#E antigenic sites revealed major mutations and deletions compared to commercial vaccine 1C strain (HA-1C.2.2) and previously predominant H1_avN1 strains (HA-1C.2.1). Antigenic cartography confirmed significant antigenic distances between H1_avN2#E and other 1C strains, suggesting that the new genotype has escaped the pre-existing immunity of the swine population. Epidemiologically, the H1_avN2#E virus exhibited epizootic hallmarks with more severe clinical outcomes compared to H1_avN1 viruses. These factors likely contributed to the spread of H1_avN2#E within the pig population. The rapid rise of H1_avN2#E highlighted the dynamic nature of swIAV genetic and antigenic diversity, underscoring the importance of tailored surveillance programs to support risk assessment during potential new outbreaks. It also demonstrates the need to strengthen biosecurity measures when introducing pigs into a herd, including swIAV positivity assessment followed by quarantine, and restrict the trade of swIAV-excreting live swine between European countries.

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由于2020年新引入的H1N2 1C基因型的出现和广泛传播，法国猪流感病毒多样性发生重大变化。

甲型猪流感病毒（swIAVs）是全球猪呼吸道疾病的主要病因，具有重大的经济和健康风险。这些病毒可以重新组合，产生具有不同致病性和跨物种传播能力的新毒株。本研究旨在监测2019 - 2022年法国猪流感病毒的遗传和抗原进化。分子分型显示，从2020年起，H1avN2病例显著增加，改变了之前稳定的亚型分布。H1av （1C）株全基因组测序和系统发育分析鉴定出10个循环基因型，其中包括5个新的基因型。从2020年起，最主要的基因型被命名为H1avN2#E，其特征是HA-1C.2.4, N2-Gent/84，以及内部蛋白质编码基因，属于欧亚鸟样（EA）谱系中新定义的亚支，称为EA- dk。H1avN2#E出现在该国猪群最密集的布列塔尼地区，并迅速成为法国最常检测到的猪流感病毒基因型。在全国范围内，猪流感病毒谱系比例的这种剧烈变化是前所未有的，使H1avN2#E成为了解猪流感病毒进化和传播模式的独特案例。系统发育分析表明，H1avN2#E基因型是从一个可能起源于丹麦的受限来源引入的。它在2020年动物流行病开始时以低遗传多样性迅速传播，随着推断种群规模的增长和稳定，在2021年和2022年呈现出越来越多的多样性，并与其他地方性动物基因型发生重组。与商业疫苗1C株（HA-1C.2.2）和先前主要的H1avN1株（HA-1C.2.1）相比，H1avN2#E抗原位点的氨基酸序列比对显示出主要的突变和缺失。抗原制图证实了H1avN2#E与其他1C毒株之间存在显著的抗原距离，这表明新的基因型已经逃脱了猪群先前存在的免疫。在流行病学上，与H1avN1病毒相比，H1avN2#E病毒表现出具有更严重临床结果的动物流行病特征。这些因素可能促成了H1avN2#E在猪群中的传播。甲型h1n1流感n2 #E的迅速上升凸显了甲型h1n1流感病毒遗传和抗原多样性的动态性，强调了在潜在的新疫情爆发期间制定针对性监测计划以支持风险评估的重要性。它还表明，有必要在将猪引入畜群时加强生物安全措施，包括猪流感病毒阳性评估和检疫，并限制欧洲国家之间排泄猪流感病毒的活猪的贸易。

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来源期刊

Virus Evolution Immunology and Microbiology-Microbiology

CiteScore

10.50

自引率

5.70%

发文量

108

审稿时长

14 weeks

期刊介绍： Virus Evolution is a new Open Access journal focusing on the long-term evolution of viruses, viruses as a model system for studying evolutionary processes, viral molecular epidemiology and environmental virology. The aim of the journal is to provide a forum for original research papers, reviews, commentaries and a venue for in-depth discussion on the topics relevant to virus evolution.