Журнал микробиологии, эпидемиологии и иммунобиологии (Jan 2024)

The adaptive potential of North American subtype H7N2 avian influenza viruses to mammals

  • Aleksandr V. Lyashko,
  • Irina A. Rudneva,
  • Dmitrii N. Shcherbinin,
  • Natalia F. Lomakina,
  • Anastasia A. Treshchalina,
  • Irina M. Kupriyanova,
  • Alexandra S. Gambaryan,
  • Elena B. Timofeeva,
  • Aleksandr A. Shilov,
  • Galina K. Sadykova,
  • Alexey G. Prilipov,
  • Boris I. Timofeev,
  • Maxim M. Shmarov,
  • Elena L. Ryazanova,
  • Tatiana A. Timofeeva

DOI
https://doi.org/10.36233/0372-9311-395
Journal volume & issue
Vol. 100, no. 6
pp. 442 – 453

Abstract

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Introduction. H7 subtype avian influenza viruses causing severe epizootics among birds are phylogenetically different in the Eastern and Western hemispheres. Numerous human infections caused by these viruses in the Eastern hemisphere indicate that H7 viruses can overcome the interspecies barrier and pose a potential threat of a new pandemic.The H7N2 viruses with deletion of amino acids 221–228 (H3 numbering) in hemagglutinin (HA) had been circulating among poultry in the Western Hemisphere during 1996–2006, and had once again been detected in 2016 in an animal shelter, where they caused cat diseases. The objective of this study is to elucidate the mechanism of adaptation to mammals of North American H7N2 influenza viruses with deletion in HA. Materials and methods. The A/chicken/New Jersey/294598-12/2004 (H7N2) virus was adapted to mice by the lung passages. Complete genomes of original and mouse-adapted viruses were analyzed. The receptor specificity and thermostability of viruses, HA activation pH and virulence for mice were determined. Results. The non-pathogenic H7N2 avian influenza virus became pathogenic after 10 passages in mice. Amino acid substitutions occurred in five viral proteins: one in PB2 (E627K), NA (K127N), NEP (E14Q), four in HA and six in NS1. Mutations in HA slightly changed receptor specificity but increased the pH of HA activation by 0.4 units. The NS1 protein undergone the greatest changes in the positions (N73T, S114G, K118R, G171A, F214L and G224R), where amino acid polymorphisms were observed in the original virus, but only minor amino acid variants have been preserved in the mouse adapted variant. Conclusion. The results show that H7N2 viruses have the potential to adapt to mammals. The increase in virulence is most likely due to the adaptive E627K mutation in PB2 and possibly in HA.

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