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The global H5N1 influenza panzootic in mammals

Author

Listed:
  • Thomas P. Peacock

    (Pirbright
    Imperial College London)

  • Louise Moncla

    (University of Pennsylvania)

  • Gytis Dudas

    (Vilnius University)

  • David VanInsberghe

    (Emory University School of Medicine
    Emory Center of Excellence for Influenza Research and Response (Emory-CEIRR))

  • Ksenia Sukhova

    (Imperial College London)

  • James O. Lloyd-Smith

    (University of California Los Angeles
    University of California Los Angeles)

  • Michael Worobey

    (University of Arizona)

  • Anice C. Lowen

    (Emory University School of Medicine
    Emory Center of Excellence for Influenza Research and Response (Emory-CEIRR))

  • Martha I. Nelson

    (National Institutes of Health (NIH))

Abstract

Influenza A viruses have caused more documented global pandemics in human history than any other pathogen1,2. High pathogenicity avian influenza viruses belonging to the H5N1 subtype are a leading pandemic risk. Two decades after H5N1 ‘bird flu’ became established in poultry in Southeast Asia, its descendants have resurged3, setting off a H5N1 panzootic in wild birds that is fuelled by: (1) rapid intercontinental spread, reaching South America and Antarctica for the first time4,5; (2) fast evolution via genomic reassortment6; and (3) frequent spillover into terrestrial7,8 and marine mammals9. The virus has sustained mammal-to-mammal transmission in multiple settings, including European fur farms10,11, South American marine mammals12–15 and US dairy cattle16–19, raising questions about whether humans are next. Historically, swine are considered optimal intermediary hosts that help avian influenza viruses adapt to mammals before jumping to humans20. However, the altered ecology of H5N1 has opened the door to new evolutionary pathways. Dairy cattle, farmed mink or South American sea lions may have the potential to serve as new mammalian gateways for transmission of avian influenza viruses to humans. In this Perspective, we explore the molecular and ecological factors driving the sudden expansion in H5N1 host range and assess the likelihood of different zoonotic pathways leading to an H5N1 pandemic.

Suggested Citation

  • Thomas P. Peacock & Louise Moncla & Gytis Dudas & David VanInsberghe & Ksenia Sukhova & James O. Lloyd-Smith & Michael Worobey & Anice C. Lowen & Martha I. Nelson, 2025. "The global H5N1 influenza panzootic in mammals," Nature, Nature, vol. 637(8045), pages 304-313, January.
    • Handle: RePEc:nat:nature:v:637:y:2025:i:8045:d:10.1038_s41586-024-08054-z
    DOI: 10.1038/s41586-024-08054-z
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    References listed on IDEAS

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    1. Ruopeng Xie & Kimberly M. Edwards & Michelle Wille & Xiaoman Wei & Sook-San Wong & Mark Zanin & Rabeh El-Shesheny & Mariette Ducatez & Leo L. M. Poon & Ghazi Kayali & Richard J. Webby & Vijaykrishna D, 2023. "The episodic resurgence of highly pathogenic avian influenza H5 virus," Nature, Nature, vol. 622(7984), pages 810-817, October.
    2. Ahmed Kandeil & Christopher Patton & Jeremy C. Jones & Trushar Jeevan & Walter N. Harrington & Sanja Trifkovic & Jon P. Seiler & Thomas Fabrizio & Karlie Woodard & Jasmine C. Turner & Jeri-Carol Crump, 2023. "Rapid evolution of A(H5N1) influenza viruses after intercontinental spread to North America," Nature Communications, Nature, vol. 14(1), pages 1-13, December.
    3. Ashley C. Banyard & Ashley Bennison & Alexander M. P. Byrne & Scott M. Reid & Joshua G. Lynton-Jenkins & Benjamin Mollett & Dilhani Silva & Jacob Peers-Dent & Kim Finlayson & Rosamund Hall & Freya Blo, 2024. "Detection and spread of high pathogenicity avian influenza virus H5N1 in the Antarctic Region," Nature Communications, Nature, vol. 15(1), pages 1-11, December.
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