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CD201+ fascia progenitors choreograph injury repair

Author

Listed:
  • Donovan Correa-Gallegos

    (Helmholtz Munich)

  • Haifeng Ye

    (Helmholtz Munich)

  • Bikram Dasgupta

    (Helmholtz Munich)

  • Aydan Sardogan

    (Helmholtz Munich)

  • Safwen Kadri

    (Helmholtz Munich)

  • Ravinder Kandi

    (Helmholtz Munich)

  • Ruoxuan Dai

    (Helmholtz Munich)

  • Yue Lin

    (Helmholtz Munich)

  • Robert Kopplin

    (Helmholtz Munich)

  • Disha Shantaram Shenai

    (Helmholtz Munich)

  • Juliane Wannemacher

    (Helmholtz Munich)

  • Ryo Ichijo

    (Helmholtz Munich)

  • Dongsheng Jiang

    (Helmholtz Munich)

  • Maximilian Strunz

    (Helmholtz Munich)

  • Meshal Ansari

    (Helmholtz Munich)

  • Illias Angelidis

    (Helmholtz Munich)

  • Herbert B. Schiller

    (Helmholtz Munich
    Ludwig-Maximilians University Hospital)

  • Thomas Volz

    (Technical University of Munich)

  • Hans-Günther Machens

    (Technical University of Munich)

  • Yuval Rinkevich

    (Helmholtz Munich)

Abstract

Optimal tissue recovery and organismal survival are achieved by spatiotemporal tuning of tissue inflammation, contraction and scar formation1. Here we identify a multipotent fibroblast progenitor marked by CD201 expression in the fascia, the deepest connective tissue layer of the skin. Using skin injury models in mice, single-cell transcriptomics and genetic lineage tracing, ablation and gene deletion models, we demonstrate that CD201+ progenitors control the pace of wound healing by generating multiple specialized cell types, from proinflammatory fibroblasts to myofibroblasts, in a spatiotemporally tuned sequence. We identified retinoic acid and hypoxia signalling as the entry checkpoints into proinflammatory and myofibroblast states. Modulating CD201+ progenitor differentiation impaired the spatiotemporal appearances of fibroblasts and chronically delayed wound healing. The discovery of proinflammatory and myofibroblast progenitors and their differentiation pathways provide a new roadmap to understand and clinically treat impaired wound healing.

Suggested Citation

  • Donovan Correa-Gallegos & Haifeng Ye & Bikram Dasgupta & Aydan Sardogan & Safwen Kadri & Ravinder Kandi & Ruoxuan Dai & Yue Lin & Robert Kopplin & Disha Shantaram Shenai & Juliane Wannemacher & Ryo Ic, 2023. "CD201+ fascia progenitors choreograph injury repair," Nature, Nature, vol. 623(7988), pages 792-802, November.
  • Handle: RePEc:nat:nature:v:623:y:2023:i:7988:d:10.1038_s41586-023-06725-x
    DOI: 10.1038/s41586-023-06725-x
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    Cited by:

    1. Xiaowei Bian & Minna Piipponen & Zhuang Liu & Lihua Luo & Jennifer Geara & Yongjian Chen & Traimate Sangsuwan & Monica Maselli & Candice Diaz & Connor A. Bain & Evelien Eenjes & Maria Genander & Micha, 2024. "Epigenetic memory of radiotherapy in dermal fibroblasts impairs wound repair capacity in cancer survivors," Nature Communications, Nature, vol. 15(1), pages 1-20, December.

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