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Mechanical control of innate immune responses against viral infection revealed in a human lung alveolus chip

Author

Listed:
  • Haiqing Bai

    (Harvard University)

  • Longlong Si

    (Harvard University)

  • Amanda Jiang

    (Harvard University
    Harvard Medical School)

  • Chaitra Belgur

    (Harvard University)

  • Yunhao Zhai

    (Harvard University)

  • Roberto Plebani

    (Harvard University
    “G. d’Annunzio” University of Chieti-Pescara)

  • Crystal Yuri Oh

    (Harvard University)

  • Melissa Rodas

    (Harvard University)

  • Aditya Patil

    (Harvard University)

  • Atiq Nurani

    (Harvard University)

  • Sarah E. Gilpin

    (Harvard University)

  • Rani K. Powers

    (Harvard University)

  • Girija Goyal

    (Harvard University)

  • Rachelle Prantil-Baun

    (Harvard University)

  • Donald E. Ingber

    (Harvard University
    Harvard Medical School
    Harvard John A. Paulson School of Engineering and Applied Sciences)

Abstract

Mechanical breathing motions have a fundamental function in lung development and disease, but little is known about how they contribute to host innate immunity. Here we use a human lung alveolus chip that experiences cyclic breathing-like deformations to investigate whether physical forces influence innate immune responses to viral infection. Influenza H3N2 infection of mechanically active chips induces a cascade of host responses including increased lung permeability, apoptosis, cell regeneration, cytokines production, and recruitment of circulating immune cells. Comparison with static chips reveals that breathing motions suppress viral replication by activating protective innate immune responses in epithelial and endothelial cells, which are mediated in part through activation of the mechanosensitive ion channel TRPV4 and signaling via receptor for advanced glycation end products (RAGE). RAGE inhibitors suppress cytokines induction, while TRPV4 inhibition attenuates both inflammation and viral burden, in infected chips with breathing motions. Therefore, TRPV4 and RAGE may serve as new targets for therapeutic intervention in patients infected with influenza and other potential pandemic viruses that cause life-threatening lung inflammation.

Suggested Citation

  • Haiqing Bai & Longlong Si & Amanda Jiang & Chaitra Belgur & Yunhao Zhai & Roberto Plebani & Crystal Yuri Oh & Melissa Rodas & Aditya Patil & Atiq Nurani & Sarah E. Gilpin & Rani K. Powers & Girija Goy, 2022. "Mechanical control of innate immune responses against viral infection revealed in a human lung alveolus chip," Nature Communications, Nature, vol. 13(1), pages 1-17, December.
    • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-29562-4
    DOI: 10.1038/s41467-022-29562-4
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    References listed on IDEAS

    as
    1. Minzhe Guo & Yina Du & Jason J. Gokey & Samriddha Ray & Sheila M. Bell & Mike Adam & Parvathi Sudha & Anne Karina Perl & Hitesh Deshmukh & S. Steven Potter & Jeffrey A. Whitsett & Yan Xu, 2019. "Single cell RNA analysis identifies cellular heterogeneity and adaptive responses of the lung at birth," Nature Communications, Nature, vol. 10(1), pages 1-16, December.
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    3. Angela Wahl & Lisa E. Gralinski & Claire E. Johnson & Wenbo Yao & Martina Kovarova & Kenneth H. Dinnon & Hongwei Liu & Victoria J. Madden & Halina M. Krzystek & Chandrav De & Kristen K. White & Kendra, 2021. "SARS-CoV-2 infection is effectively treated and prevented by EIDD-2801," Nature, Nature, vol. 591(7850), pages 451-457, March.
    4. Angel G. Solis & Piotr Bielecki & Holly R. Steach & Lokesh Sharma & Christian C. D. Harman & Sanguk Yun & Marcel R. Zoete & James N. Warnock & S. D. Filip To & Autumn G. York & Matthias Mack & Martin , 2019. "Author Correction: Mechanosensation of cyclical force by PIEZO1 is essential for innate immunity," Nature, Nature, vol. 575(7784), pages 7-7, November.
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    Cited by:

    1. Queeny Dasgupta & Amanda Jiang & Amy M. Wen & Robert J. Mannix & Yuncheng Man & Sean Hall & Emilia Javorsky & Donald E. Ingber, 2023. "A human lung alveolus-on-a-chip model of acute radiation-induced lung injury," Nature Communications, Nature, vol. 14(1), pages 1-14, December.

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