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Single-cell analysis identifies conserved features of immune dysfunction in simulated microgravity and spaceflight

Author

Listed:
  • Fei Wu

    (Buck Institute for Research on Aging)

  • Huixun Du

    (Buck Institute for Research on Aging
    University of Southern California)

  • Eliah Overbey

    (Weill Cornell Medicine)

  • JangKeun Kim

    (Weill Cornell Medicine)

  • Priya Makhijani

    (Buck Institute for Research on Aging
    University of Toronto)

  • Nicolas Martin

    (Buck Institute for Research on Aging)

  • Chad A. Lerner

    (Buck Institute for Research on Aging)

  • Khiem Nguyen

    (Buck Institute for Research on Aging)

  • Jordan Baechle

    (Buck Institute for Research on Aging)

  • Taylor R. Valentino

    (Buck Institute for Research on Aging)

  • Matias Fuentealba

    (Buck Institute for Research on Aging)

  • Juliet M. Bartleson

    (Buck Institute for Research on Aging)

  • Heather Halaweh

    (Buck Institute for Research on Aging)

  • Shawn Winer

    (University of Toronto
    Mount Sinai Hospital)

  • Cem Meydan

    (Weill Cornell Medicine)

  • Francine Garrett-Bakelman

    (University of Virginia
    University of Virginia)

  • Nazish Sayed

    (Stanford University School of Medicine)

  • Simon Melov

    (Buck Institute for Research on Aging)

  • Masafumi Muratani

    (University of Tsukuba
    University of Tsukuba)

  • Akos A. Gerencser

    (Buck Institute for Research on Aging)

  • Herbert G. Kasler

    (Buck Institute for Research on Aging)

  • Afshin Beheshti

    (NASA Ames Research Center
    Broad Institute of MIT and Harvard)

  • Christopher E. Mason

    (Weill Cornell Medicine
    Weill Cornell Medicine
    Weill Cornell Medicine
    Weill Cornell Medicine)

  • David Furman

    (Buck Institute for Research on Aging
    Stanford University School of Medicine
    Universidad Austral, CONICET)

  • Daniel A. Winer

    (Buck Institute for Research on Aging
    University of Southern California
    University of Toronto
    University of Toronto)

Abstract

Microgravity is associated with immunological dysfunction, though the mechanisms are poorly understood. Here, using single-cell analysis of human peripheral blood mononuclear cells (PBMCs) exposed to short term (25 hours) simulated microgravity, we characterize altered genes and pathways at basal and stimulated states with a Toll-like Receptor-7/8 agonist. We validate single-cell analysis by RNA sequencing and super-resolution microscopy, and against data from the Inspiration-4 (I4) mission, JAXA (Cell-Free Epigenome) mission, Twins study, and spleens from mice on the International Space Station. Overall, microgravity alters specific pathways for optimal immunity, including the cytoskeleton, interferon signaling, pyroptosis, temperature-shock, innate inflammation (e.g., Coronavirus pathogenesis pathway and IL-6 signaling), nuclear receptors, and sirtuin signaling. Microgravity directs monocyte inflammatory parameters, and impairs T cell and NK cell functionality. Using machine learning, we identify numerous compounds linking microgravity to immune cell transcription, and demonstrate that the flavonol, quercetin, can reverse most abnormal pathways. These results define immune cell alterations in microgravity, and provide opportunities for countermeasures to maintain normal immunity in space.

Suggested Citation

  • Fei Wu & Huixun Du & Eliah Overbey & JangKeun Kim & Priya Makhijani & Nicolas Martin & Chad A. Lerner & Khiem Nguyen & Jordan Baechle & Taylor R. Valentino & Matias Fuentealba & Juliet M. Bartleson & , 2024. "Single-cell analysis identifies conserved features of immune dysfunction in simulated microgravity and spaceflight," Nature Communications, Nature, vol. 15(1), pages 1-22, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-023-42013-y
    DOI: 10.1038/s41467-023-42013-y
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