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Spatial multi-omics of human skin reveals KRAS and inflammatory responses to spaceflight

Author

Listed:
  • Jiwoon Park

    (Weill Cornell Medicine
    Weill Cornell Medicine)

  • Eliah G. Overbey

    (Weill Cornell Medicine
    Weill Cornell Medicine)

  • S. Anand Narayanan

    (Florida State University)

  • JangKeun Kim

    (Weill Cornell Medicine
    Weill Cornell Medicine)

  • Braden T. Tierney

    (Weill Cornell Medicine
    Weill Cornell Medicine)

  • Namita Damle

    (Weill Cornell Medicine)

  • Deena Najjar

    (Weill Cornell Medicine)

  • Krista A. Ryon

    (Weill Cornell Medicine)

  • Jacqueline Proszynski

    (Weill Cornell Medicine)

  • Ashley Kleinman

    (Weill Cornell Medicine)

  • Jeremy Wain Hirschberg

    (Weill Cornell Medicine)

  • Matthew MacKay

    (Weill Cornell Medicine)

  • Evan E. Afshin

    (Weill Cornell Medicine)

  • Richard Granstein

    (Weill Cornell Medicine)

  • Justin Gurvitch

    (Weill Cornell Medicine)

  • Briana M. Hudson

    (NanoString Technologies, Inc.)

  • Aric Rininger

    (NanoString Technologies, Inc.)

  • Sean Mullane

    (SpaceX)

  • Sarah E. Church

    (NanoString Technologies, Inc.)

  • Cem Meydan

    (Weill Cornell Medicine
    Weill Cornell Medicine)

  • George Church

    (Harvard Medical School
    Harvard University)

  • Afshin Beheshti

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

  • Jaime Mateus

    (SpaceX)

  • Christopher E. Mason

    (Weill Cornell Medicine
    Weill Cornell Medicine
    Weill Cornell Medicine)

Abstract

Spaceflight can change metabolic, immunological, and biological homeostasis and cause skin rashes and irritation, yet the molecular basis remains unclear. To investigate the impact of short-duration spaceflight on the skin, we conducted skin biopsies on the Inspiration4 crew members before (L-44) and after (R + 1) flight. Leveraging multi-omics assays including GeoMx™ Digital Spatial Profiler, single-cell RNA/ATAC-seq, and metagenomics/metatranscriptomics, we assessed spatial gene expressions and associated microbial and immune changes across 95 skin regions in four compartments: outer epidermis, inner epidermis, outer dermis, and vasculature. Post-flight samples showed significant up-regulation of genes related to inflammation and KRAS signaling across all skin regions. These spaceflight-associated changes mapped to specific cellular responses, including altered interferon responses, DNA damage, epithelial barrier disruptions, T-cell migration, and hindered regeneration were located primarily in outer tissue compartments. We also linked epithelial disruption to microbial shifts in skin swab and immune cell activity to PBMC single-cell data from the same crew and timepoints. Our findings present the inaugural collection and examination of astronaut skin, offering insights for future space missions and response countermeasures.

Suggested Citation

  • Jiwoon Park & Eliah G. Overbey & S. Anand Narayanan & JangKeun Kim & Braden T. Tierney & Namita Damle & Deena Najjar & Krista A. Ryon & Jacqueline Proszynski & Ashley Kleinman & Jeremy Wain Hirschberg, 2024. "Spatial multi-omics of human skin reveals KRAS and inflammatory responses to spaceflight," Nature Communications, Nature, vol. 15(1), pages 1-14, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-48625-2
    DOI: 10.1038/s41467-024-48625-2
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    References listed on IDEAS

    as
    1. Shuxiong Wang & Michael L. Drummond & Christian F. Guerrero-Juarez & Eric Tarapore & Adam L. MacLean & Adam R. Stabell & Stephanie C. Wu & Guadalupe Gutierrez & Bao T. That & Claudia A. Benavente & Qi, 2020. "Single cell transcriptomics of human epidermis identifies basal stem cell transition states," Nature Communications, Nature, vol. 11(1), pages 1-14, December.
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