Abstract
Identifying animal species that are susceptible to the plethora of existing and emerging viruses is critical for predicting and containing disease outbreaks. Current efforts to assess viral tropism largely rely on experimental infection models, but such experiments are logistically and ethically infeasible for many wildlife species. To tackle this challenge, we developed a panel of airway organoids from ten taxonomically diverse wildlife and livestock species and evaluated their susceptibility to influenza viruses of mammalian (pH1N1) and avian (H5N1) origin. Our analyses revealed large species-specific differences in infection rate and cytopathogenicity that aligned with known in vivo data and field observations. Furthermore, we demonstrated that this organoid panel can serve as a powerful tool to elucidate receptor-binding mechanisms, viral dynamics, and early host adaptation in poorly characterized animal species. In summary, this work provides a robust and ethically viable approach for evaluating viral tropism and adaptation in wildlife species, and fills a critical gap in current pandemic preparedness, zoonotic disease surveillance, and wildlife conservation efforts.
Competing Interest Statement
The authors have declared no competing interest.
Funder Information Declared
Ministerio de Ciencia, InnovaciĂ³n y Universidades, https://ror.org/05r0vyz12, PLEC2022-009171, RYC2021-033035-I, PID2023-147498OB-I00, JDC2023050389-I
European Commission, HORIZON-HLTH-2021 CORONA-01, HORIZON-HLTH-2023-DISEASE-03
CERCA Institution, https://ror.org/01bkbaq61
Source:
Link: https://www.biorxiv.org/content/10.64898/2025.12.17.694819v1
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