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Scar matrix drives Piezo1 mediated stromal inflammation leading to placenta accreta spectrum

Author

Listed:
  • Du Wenqiang

    (University of Connecticut Health Center
    University of Connecticut)

  • Ashkan Novin

    (University of Connecticut Health Center
    University of Connecticut)

  • Yamin Liu

    (University of Connecticut)

  • Junaid Afzal

    (University of California San Francisco)

  • Yasir Suhail

    (University of Connecticut Health Center
    University of Connecticut)

  • Shaofei Liu

    (University of Connecticut Health Center
    University of Connecticut)

  • Nicole R. Gavin

    (University of Connecticut Health Center)

  • Jennifer R. Jorgensen

    (University of Connecticut Health Center)

  • Christopher M. Morosky

    (University of Connecticut Health Center)

  • Reinaldo Figueroa

    (Saint Francis Hospital and Medical Center)

  • Tannin A. Schmidt

    (University of Connecticut Health Center)

  • Melinda Sanders

    (University of Connecticut Health Center
    University of Connecticut Health Center)

  • Molly A. Brewer

    (University of Connecticut Health Center)

  • Kshitiz

    (University of Connecticut Health Center
    University of Connecticut)

Abstract

Scar tissue formation is a hallmark of wound repair in adults and can chronically affect tissue architecture and function. To understand the general phenomena, we sought to explore scar-driven imbalance in tissue homeostasis caused by a common, and standardized surgical procedure, the uterine scar due to cesarean surgery. Deep uterine scar is associated with a rapidly increasing condition in pregnant women, placenta accreta spectrum (PAS), characterized by aggressive trophoblast invasion into the uterus, frequently necessitating hysterectomy at parturition. We created a model of uterine scar, recapitulating PAS-like invasive phenotype, showing that scar matrix activates mechanosensitive ion channel, Piezo1, through glycolysis-fueled cellular contraction. Piezo1 activation increases intracellular calcium activity and Protein kinase C activation, leading to NF-κB nuclear translocation, and MafG stabilization. This inflammatory transformation of decidua leads to production of IL-8 and G-CSF, chemotactically recruiting invading trophoblasts towards scar, initiating PAS. Our study demonstrates aberrant mechanics of scar disturbs stroma-epithelia homeostasis in placentation, with implications in cancer dissemination.

Suggested Citation

  • Du Wenqiang & Ashkan Novin & Yamin Liu & Junaid Afzal & Yasir Suhail & Shaofei Liu & Nicole R. Gavin & Jennifer R. Jorgensen & Christopher M. Morosky & Reinaldo Figueroa & Tannin A. Schmidt & Melinda , 2024. "Scar matrix drives Piezo1 mediated stromal inflammation leading to placenta accreta spectrum," Nature Communications, Nature, vol. 15(1), pages 1-18, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-52351-0
    DOI: 10.1038/s41467-024-52351-0
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