Nature Communications (Jun 2024)

Potential pandemic risk of circulating swine H1N2 influenza viruses

  • Valerie Le Sage,
  • Nicole C. Rockey,
  • Andrea J. French,
  • Ryan McBride,
  • Kevin R. McCarthy,
  • Lora H. Rigatti,
  • Meredith J. Shephard,
  • Jennifer E. Jones,
  • Sydney G. Walter,
  • Joshua D. Doyle,
  • Lingqing Xu,
  • Dominique J. Barbeau,
  • Shengyang Wang,
  • Sheila A. Frizzell,
  • Michael M. Myerburg,
  • James C. Paulson,
  • Anita K. McElroy,
  • Tavis K. Anderson,
  • Amy L. Vincent Baker,
  • Seema S. Lakdawala

DOI
https://doi.org/10.1038/s41467-024-49117-z
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 13

Abstract

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Abstract Influenza A viruses in swine have considerable genetic diversity and continue to pose a pandemic threat to humans due to a potential lack of population level immunity. Here we describe a pipeline to characterize and triage influenza viruses for their pandemic risk and examine the pandemic potential of two widespread swine origin viruses. Our analysis reveals that a panel of human sera collected from healthy adults in 2020 has no cross-reactive neutralizing antibodies against a α-H1 clade strain (α-swH1N2) but do against a γ-H1 clade strain. The α-swH1N2 virus replicates efficiently in human airway cultures and exhibits phenotypic signatures similar to the human H1N1 pandemic strain from 2009 (H1N1pdm09). Furthermore, α-swH1N2 is capable of efficient airborne transmission to both naïve ferrets and ferrets with prior seasonal influenza immunity. Ferrets with H1N1pdm09 pre-existing immunity show reduced α-swH1N2 viral shedding and less severe disease signs. Despite this, H1N1pdm09-immune ferrets that became infected via the air can still onward transmit α-swH1N2 with an efficiency of 50%. These results indicate that this α-swH1N2 strain has a higher pandemic potential, but a moderate level of impact since there is reduced replication fitness and pathology in animals with prior immunity.