Frontiers in Virology (May 2024)

RSV infection of humanized lung-only mice induces pathological changes resembling severe bronchiolitis and bronchopneumonia

  • Chandrav De,
  • Chandrav De,
  • Chandrav De,
  • Raymond J. Pickles,
  • Raymond J. Pickles,
  • Wenbo Yao,
  • Wenbo Yao,
  • Wenbo Yao,
  • Baolin Liao,
  • Baolin Liao,
  • Baolin Liao,
  • Baolin Liao,
  • Allison Boone,
  • Allison Boone,
  • Rachel A. Cleary,
  • Rachel A. Cleary,
  • Rachel A. Cleary,
  • J. Victor Garcia,
  • J. Victor Garcia,
  • J. Victor Garcia,
  • J. Victor Garcia,
  • Angela Wahl,
  • Angela Wahl,
  • Angela Wahl,
  • Angela Wahl

DOI
https://doi.org/10.3389/fviro.2024.1380030
Journal volume & issue
Vol. 4

Abstract

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Respiratory syncytial virus (RSV) is a substantial cause of severe lower respiratory tract infections in infants, young children, older adults, and immunocompromised individuals. There is a vital need for effective therapeutics to prevent and/or treat severe RSV infection in these high-risk individuals. The development and pre-clinical testing of candidate RSV therapeutics could be accelerated by their evaluation in animal models that recapitulate bronchiolitis and bronchopneumonia, both hallmark features of severe RSV infection in humans. Previously, we demonstrated that implanted human lung tissue in humanized lung-only mice (LoM) can be infected with RSV, resulting in sustained virus replication. Here we analyzed RSV-associated human lung pathology in the human lung implants of RSV-infected LoM. RSV-infected epithelial cells lining the airway and the alveolar regions of human lung implants result in hallmark histological features of RSV bronchiolitis and bronchopneumonia, including distal airway and alveolar lumens clogged with (1) sloughed and necrotic RSV-infected epithelial cells, (2) neutrophil-containing inflammatory infiltrates, and (3) MUC5B-dominated mucus secretions. We also show that treatment of LoM with a small molecule antiviral (ribavirin) or a neutralizing antibody (palivizumab) significantly suppressed and/or prevented RSV infection in vivo. Our data together show that RSV infection of human lung implants in vivo exhibits appropriate cellular tropism and results in the hallmark pathological characteristics of severe bronchiolitis and bronchopneumonia in humans. They also offer proof-of-principle of the utility of this model to evaluate novel approaches for the prevention/treatment of RSV infection.

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