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

Abstract

AbstractSwine influenza A viruses (swIAV) 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 H1avN2 cases from 2020 onwards, altering the previously stable subtypes’ distribution. Whole-genome sequencing and phylogenetic analyses of H1av(1C) strains identified ten circulating genotypes, including five new genotypes, marked by a significant predominance of the H1avN2#E genotype. It was characterized by an HA-1C.2.4, an N2-Gent/84, and internal protein-encoding genes belonging to a newly defined genogroup within the Eurasian avian-like (EA) lineage, the EA-DK subclade. H1avN2#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 lineages proportions at a national scale was unprecedented, making H1avN2#E a unique case for understanding swIAV evolution and spreading patterns. Phylogenetic analyses suggested an introduction of the H1avN2#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, and exhibiting reassortments with other enzootic genotypes. Amino acid sequence alignments of H1avN2#E antigenic sites revealed major mutations and deletions compared to vaccine 1C strain (HA-1C.2.2) and previously predominant H1avN1 strains (HA-1C.2.1). Antigenic cartography confirmed significant antigenic distances between H1avN2#E and other 1C strains, suggesting the new genotype escaped from the swine population preexisting immunity. Epidemiologically, the H1avN2#E virus exhibited epizootic hallmarks with more severe clinical outcomes compared to H1avN1 viruses. These factors likely contributed to the spread of H1avN2#E within the pig population. The rapid rise of H1avN2#E highlighted the dynamic nature of swIAV genetic and antigenic diversity, underscoring the importance of adapted surveillance programs to support risk assessment in the event of new outbreaks. This also demonstrate the need to strengthen biosecurity measures when receiving pigs in a herd and to limit trading of swIAV-excreting live swine between European countries.