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Circulating miR-126-3p is a mechanistic biomarker for knee osteoarthritis

Author

Listed:
  • Thomas G. Wilson

    (Henry Ford Health + Michigan State University Health Sciences)

  • Madhu Baghel

    (Henry Ford Health + Michigan State University Health Sciences)

  • Navdeep Kaur

    (Henry Ford Health + Michigan State University Health Sciences)

  • Indrani Datta

    (Henry Ford Health + Michigan State University Health Sciences)

  • Ian Loveless

    (Henry Ford Health + Michigan State University Health Sciences)

  • Pratibha Potla

    (University Health Network)

  • Devin Mendez

    (Henry Ford Health + Michigan State University Health Sciences)

  • Logan Hansen

    (Henry Ford Health)

  • Kevin Baker

    (Henry Ford Health + Michigan State University Health Sciences)

  • T. Sean Lynch

    (Henry Ford Health)

  • Vasilios Moutzouros

    (Henry Ford Health)

  • Jason Davis

    (Henry Ford Health)

  • Shabana Amanda Ali

    (Henry Ford Health + Michigan State University Health Sciences
    Wayne State University)

Abstract

Osteoarthritis is a major contributor to pain and disability worldwide, yet there are currently no validated soluble biomarkers or disease-modifying treatments. Given that microRNAs are promising mechanistic biomarkers that can be therapeutically targeted, in this study, we aimed to identify and prioritize reproducible circulating microRNAs associated with radiographic knee osteoarthritis. Across four independent cohorts, we find circulating miR-126-3p is elevated in knee osteoarthritis versus controls. Across six primary human knee osteoarthritis tissues, miR-126-3p is highest in subchondral bone, fat pad and synovium, and lowest in cartilage. Following both intravenous and intra-articular miR-126-3p mimic treatment in a surgical mouse model of knee osteoarthritis, we show reduced disease severity in males. In human knee osteoarthritis biospecimens, miR-126-3p mimic treatment reduces genes and markers associated with angiogenesis, as well as genes linked to osteogenesis, adipogenesis, and synovitis—processes secondary to angiogenesis. Our findings indicate that miR-126-3p is elevated in knee osteoarthritis and mitigates disease severity, supporting its potential as a biomarker and therapeutic target.

Suggested Citation

  • Thomas G. Wilson & Madhu Baghel & Navdeep Kaur & Indrani Datta & Ian Loveless & Pratibha Potla & Devin Mendez & Logan Hansen & Kevin Baker & T. Sean Lynch & Vasilios Moutzouros & Jason Davis & Shabana, 2025. "Circulating miR-126-3p is a mechanistic biomarker for knee osteoarthritis," Nature Communications, Nature, vol. 16(1), pages 1-13, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-57308-5
    DOI: 10.1038/s41467-025-57308-5
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    References listed on IDEAS

    as
    1. Thomas Thomou & Marcelo A. Mori & Jonathan M. Dreyfuss & Masahiro Konishi & Masaji Sakaguchi & Christian Wolfrum & Tata Nageswara Rao & Jonathon N. Winnay & Ruben Garcia-Martin & Steven K. Grinspoon &, 2017. "Correction: Corrigendum: Adipose-derived circulating miRNAs regulate gene expression in other tissues," Nature, Nature, vol. 545(7653), pages 252-252, May.
    2. Thomas Thomou & Marcelo A. Mori & Jonathan M. Dreyfuss & Masahiro Konishi & Masaji Sakaguchi & Christian Wolfrum & Tata Nageswara Rao & Jonathon N. Winnay & Ruben Garcia-Martin & Steven K. Grinspoon &, 2017. "Adipose-derived circulating miRNAs regulate gene expression in other tissues," Nature, Nature, vol. 542(7642), pages 450-455, February.
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