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Hamster model for post-COVID-19 alveolar regeneration offers an opportunity to understand post-acute sequelae of SARS-CoV-2

Author

Listed:
  • Laura Heydemann

    (University of Veterinary Medicine, Foundation)

  • Małgorzata Ciurkiewicz

    (University of Veterinary Medicine, Foundation)

  • Georg Beythien

    (University of Veterinary Medicine, Foundation)

  • Kathrin Becker

    (University of Veterinary Medicine, Foundation)

  • Klaus Schughart

    (University of Tennessee Health Science Center
    University of Münster)

  • Stephanie Stanelle-Bertram

    (Leibniz Institute for Virology)

  • Berfin Schaumburg

    (Leibniz Institute for Virology)

  • Nancy Mounogou-Kouassi

    (Leibniz Institute for Virology)

  • Sebastian Beck

    (Leibniz Institute for Virology)

  • Martin Zickler

    (Leibniz Institute for Virology)

  • Mark Kühnel

    (Hannover Medical School (MHH)
    Biomedical Research in Endstage and Obstructive Lung Disease Hannover (BREATH), Hannover Medical School (MHH))

  • Gülsah Gabriel

    (Leibniz Institute for Virology)

  • Andreas Beineke

    (University of Veterinary Medicine, Foundation)

  • Wolfgang Baumgärtner

    (University of Veterinary Medicine, Foundation)

  • Federico Armando

    (University of Veterinary Medicine, Foundation)

Abstract

COVID-19 survivors often suffer from post-acute sequelae of SARS-CoV-2 infection (PASC). Current evidence suggests dysregulated alveolar regeneration as a possible explanation for respiratory PASC, which deserves further investigation in a suitable animal model. This study investigates morphological, phenotypical and transcriptomic features of alveolar regeneration in SARS-CoV-2 infected Syrian golden hamsters. We demonstrate that CK8+ alveolar differentiation intermediate (ADI) cells occur following SARS-CoV-2-induced diffuse alveolar damage. A subset of ADI cells shows nuclear accumulation of TP53 at 6- and 14-days post infection (dpi), indicating a prolonged arrest in the ADI state. Transcriptome data show high module scores for pathways involved in cell senescence, epithelial-mesenchymal transition, and angiogenesis in cell clusters with high ADI gene expression. Moreover, we show that multipotent CK14+ airway basal cell progenitors migrate out of terminal bronchioles, aiding alveolar regeneration. At 14 dpi, ADI cells, peribronchiolar proliferates, M2-macrophages, and sub-pleural fibrosis are observed, indicating incomplete alveolar restoration. The results demonstrate that the hamster model reliably phenocopies indicators of a dysregulated alveolar regeneration of COVID-19 patients. The results provide important information on a translational COVID-19 model, which is crucial for its application in future research addressing pathomechanisms of PASC and in testing of prophylactic and therapeutic approaches for this syndrome.

Suggested Citation

  • Laura Heydemann & Małgorzata Ciurkiewicz & Georg Beythien & Kathrin Becker & Klaus Schughart & Stephanie Stanelle-Bertram & Berfin Schaumburg & Nancy Mounogou-Kouassi & Sebastian Beck & Martin Zickler, 2023. "Hamster model for post-COVID-19 alveolar regeneration offers an opportunity to understand post-acute sequelae of SARS-CoV-2," Nature Communications, Nature, vol. 14(1), pages 1-19, December.
  • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-39049-5
    DOI: 10.1038/s41467-023-39049-5
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