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Spatial metabolomics reveals glycogen as an actionable target for pulmonary fibrosis

Author

Listed:
  • Lindsey R. Conroy

    (University of Kentucky College of Medicine
    Markey Cancer Center)

  • Harrison A. Clarke

    (College of Medicine, University of Florida)

  • Derek B. Allison

    (Markey Cancer Center
    University of Kentucky College of Medicine)

  • Samuel Santos Valenca

    (University of Kentucky College of Medicine
    University of Kentucky)

  • Qi Sun

    (University of Kentucky College of Medicine)

  • Tara R. Hawkinson

    (College of Medicine, University of Florida)

  • Lyndsay E. A. Young

    (University of Kentucky College of Medicine)

  • Juanita E. Ferreira

    (University of Kentucky College of Medicine)

  • Autumn V. Hammonds

    (University of Kentucky College of Medicine)

  • Jaclyn B. Dunne

    (Department of Cell & Molecular Pharmacology & Experimental Therapeutics at the Medical University of South Carolina)

  • Robert J. McDonald

    (University of Kentucky College of Medicine)

  • Kimberly J. Absher

    (University of Kentucky College of Medicine)

  • Brittany E. Dong

    (University of Kentucky College of Medicine
    University of Kentucky)

  • Ronald C. Bruntz

    (University of Kentucky College of Medicine)

  • Kia H. Markussen

    (University of Kentucky College of Medicine)

  • Jelena A. Juras

    (University of Kentucky College of Medicine
    Markey Cancer Center)

  • Warren J. Alilain

    (University of Kentucky College of Medicine
    Spinal Cord and Brain Injury Research Center)

  • Jinze Liu

    (Virginia Commonwealth University)

  • Matthew S. Gentry

    (Markey Cancer Center
    College of Medicine, University of Florida
    University of Kentucky College of Medicine
    University of Florida)

  • Peggi M. Angel

    (Department of Cell & Molecular Pharmacology & Experimental Therapeutics at the Medical University of South Carolina)

  • Christopher M. Waters

    (University of Kentucky College of Medicine
    University of Kentucky)

  • Ramon C. Sun

    (University of Kentucky College of Medicine
    Markey Cancer Center
    College of Medicine, University of Florida
    University of Florida)

Abstract

Matrix assisted laser desorption/ionization imaging has greatly improved our understanding of spatial biology, however a robust bioinformatic pipeline for data analysis is lacking. Here, we demonstrate the application of high-dimensionality reduction/spatial clustering and histopathological annotation of matrix assisted laser desorption/ionization imaging datasets to assess tissue metabolic heterogeneity in human lung diseases. Using metabolic features identified from this pipeline, we hypothesize that metabolic channeling between glycogen and N-linked glycans is a critical metabolic process favoring pulmonary fibrosis progression. To test our hypothesis, we induced pulmonary fibrosis in two different mouse models with lysosomal glycogen utilization deficiency. Both mouse models displayed blunted N-linked glycan levels and nearly 90% reduction in endpoint fibrosis when compared to WT animals. Collectively, we provide conclusive evidence that lysosomal utilization of glycogen is required for pulmonary fibrosis progression. In summary, our study provides a roadmap to leverage spatial metabolomics to understand foundational biology in pulmonary diseases.

Suggested Citation

  • Lindsey R. Conroy & Harrison A. Clarke & Derek B. Allison & Samuel Santos Valenca & Qi Sun & Tara R. Hawkinson & Lyndsay E. A. Young & Juanita E. Ferreira & Autumn V. Hammonds & Jaclyn B. Dunne & Robe, 2023. "Spatial metabolomics reveals glycogen as an actionable target for pulmonary fibrosis," Nature Communications, Nature, vol. 14(1), pages 1-18, December.
  • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-38437-1
    DOI: 10.1038/s41467-023-38437-1
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    References listed on IDEAS

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