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Autoantibodies immuno-mechanically modulate platelet contractile force and bleeding risk

Author

Listed:
  • Oluwamayokun Oshinowo

    (Georgia Institute of Technology and Emory University
    Emory University
    Georgia Institute of Technology
    Georgia Institute of Technology)

  • Renee Copeland

    (Georgia Institute of Technology and Emory University
    Emory University
    Georgia Institute of Technology
    Georgia Institute of Technology)

  • Anamika Patel

    (Emory University)

  • Nina Shaver

    (Georgia Institute of Technology and Emory University
    Emory University
    Georgia Institute of Technology
    Georgia Institute of Technology)

  • Meredith E. Fay

    (Georgia Institute of Technology and Emory University
    Emory University
    Georgia Institute of Technology
    Georgia Institute of Technology)

  • Rebecca Jeltuhin

    (Georgia Institute of Technology and Emory University)

  • Yijin Xiang

    (Emory University)

  • Christina Caruso

    (Emory University
    Georgia Institute of Technology)

  • Adiya E. Otumala

    (Georgia Institute of Technology and Emory University
    Emory University
    Georgia Institute of Technology)

  • Sarah Hernandez

    (Emory University)

  • Priscilla Delgado

    (Georgia Institute of Technology and Emory University
    Emory University
    Georgia Institute of Technology)

  • Gabrielle Dean

    (Children’s Healthcare of Atlanta)

  • James M. Kelvin

    (Georgia Institute of Technology and Emory University)

  • Daniel Chester

    (Chapel Hill and North Carolina State University)

  • Ashley C. Brown

    (Chapel Hill and North Carolina State University)

  • Erik C. Dreaden

    (Georgia Institute of Technology and Emory University)

  • Traci Leong

    (Emory University)

  • Jesse Waggoner

    (Chapel Hill and North Carolina State University)

  • Renhao Li

    (Emory University)

  • Eric Ortlund

    (Emory University)

  • Carolyn Bennett

    (Emory University)

  • Wilbur A. Lam

    (Georgia Institute of Technology and Emory University
    Emory University
    Georgia Institute of Technology
    Georgia Institute of Technology)

  • David R. Myers

    (Georgia Institute of Technology and Emory University
    Emory University
    Georgia Institute of Technology)

Abstract

Altered mechanotransduction has been proposed as a putative mechanism for disease pathophysiology, yet evidence remains scarce. Here we introduce a concept we call single cell immuno-mechanical modulation, which links immunology, integrin biology, cellular mechanics, and disease pathophysiology and symptomology. Using a micropatterned hydrogel-laden coverslip compatible with standard fluorescence microscopy, we conduct a clinical mechanobiology study, specifically focusing on immune thrombocytopenia (ITP), an autoantibody-mediated platelet disorder that currently lacks a reliable biomarker for bleeding risk. We discover that in pediatric ITP patients (n = 53), low single platelet contraction force alone is a “physics-based” biomarker of bleeding (92.3% sensitivity, 90% specificity). Mechanistically, autoantibodies and monoclonal antibodies drive increases and decreases of cell force by stabilizing integrins in different conformations depending on the targeted epitope. Hence, immuno-mechanical modulation demonstrates how antibodies may pathologically alter mechanotransduction to cause clinical symptoms and this phenomenon can be leveraged to control cellular mechanics for research, diagnostic, and therapeutic purposes.

Suggested Citation

  • Oluwamayokun Oshinowo & Renee Copeland & Anamika Patel & Nina Shaver & Meredith E. Fay & Rebecca Jeltuhin & Yijin Xiang & Christina Caruso & Adiya E. Otumala & Sarah Hernandez & Priscilla Delgado & Ga, 2024. "Autoantibodies immuno-mechanically modulate platelet contractile force and bleeding risk," Nature Communications, Nature, vol. 15(1), pages 1-15, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-54309-8
    DOI: 10.1038/s41467-024-54309-8
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    References listed on IDEAS

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