Vaccines (Sep 2022)

Intranasal Treatment of Ferrets with Inert Bacterial Spores Reduces Disease Caused by a Challenging H7N9 Avian Influenza Virus

  • Joe James,
  • Stephanie M. Meyer,
  • Huynh A. Hong,
  • Chau Dang,
  • Ho T. Y. Linh,
  • William Ferreira,
  • Paidamoyo M. Katsande,
  • Linh Vo,
  • Daniel Hynes,
  • William Love,
  • Ashley C. Banyard,
  • Simon M. Cutting

DOI
https://doi.org/10.3390/vaccines10091559
Journal volume & issue
Vol. 10, no. 9
p. 1559

Abstract

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Background: Influenza is a respiratory infection that continues to present a major threat to human health, with ~500,000 deaths/year. Continued circulation of epidemic subtypes in humans and animals potentially increases the risk of future pandemics. Vaccination has failed to halt the evolution of this virus and next-generation prophylactic approaches are under development. Naked, “heat inactivated”, or inert bacterial spores have been shown to protect against influenza in murine models. Methods: Ferrets were administered intranasal doses of inert bacterial spores (DSM 32444K) every 7 days for 4 weeks. Seven days after the last dose, the animals were challenged with avian H7N9 influenza A virus. Clinical signs of infection and viral shedding were monitored. Results: Clinical symptoms of infection were significantly reduced in animals dosed with DSM 32444K. The temporal kinetics of viral shedding was reduced but not prevented. Conclusion: Taken together, nasal dosing using heat-stable spores could provide a useful approach for influenza prophylaxis in both humans and animals.

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