CD201+ fascia progenitors choreograph injury repair

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 Ichijo; Dongsheng Jiang; Maximilian Strunz; Meshal Ansari; Illias Angelidis; Herbert B. Schiller; Thomas Voltz; Hans Günther Machens; Yuval Rinkevich

doi:10.1038/s41586-023-06725-x

CD201⁺ fascia progenitors choreograph injury repair

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 Ichijo, Dongsheng Jiang, Maximilian Strunz, Meshal Ansari, Illias Angelidis, Herbert B. Schiller, Thomas Voltz, Hans Günther Machens, Yuval Rinkevich

Chair of Plastic Surgery

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30 Scopus citations

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.

Original language	English
Pages (from-to)	792-802
Number of pages	11
Journal	Nature
Volume	623
Issue number	7988
DOIs	https://doi.org/10.1038/s41586-023-06725-x
State	Published - 23 Nov 2023

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Correa-Gallegos, D., Ye, H., Dasgupta, B., Sardogan, A., Kadri, S., Kandi, R., Dai, R., Lin, Y., Kopplin, R., Shenai, D. S., Wannemacher, J., Ichijo, R., Jiang, D., Strunz, M., Ansari, M., Angelidis, I., Schiller, H. B., Voltz, T., Machens, H. G., & Rinkevich, Y. (2023). CD201⁺ fascia progenitors choreograph injury repair. Nature, 623(7988), 792-802. https://doi.org/10.1038/s41586-023-06725-x

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title = "CD201+ fascia progenitors choreograph injury repair",

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.",

author = "Donovan Correa-Gallegos and Haifeng Ye and Bikram Dasgupta and Aydan Sardogan and Safwen Kadri and Ravinder Kandi and Ruoxuan Dai and Yue Lin and Robert Kopplin and Shenai, {Disha Shantaram} and Juliane Wannemacher and Ryo Ichijo and Dongsheng Jiang and Maximilian Strunz and Meshal Ansari and Illias Angelidis and Schiller, {Herbert B.} and Thomas Voltz and Machens, {Hans G{\"u}nther} and Yuval Rinkevich",

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doi = "10.1038/s41586-023-06725-x",

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Correa-Gallegos, D, Ye, H, Dasgupta, B, Sardogan, A, Kadri, S, Kandi, R, Dai, R, Lin, Y, Kopplin, R, Shenai, DS, Wannemacher, J, Ichijo, R, Jiang, D, Strunz, M, Ansari, M, Angelidis, I, Schiller, HB, Voltz, T, Machens, HG & Rinkevich, Y 2023, 'CD201⁺ fascia progenitors choreograph injury repair', Nature, vol. 623, no. 7988, pp. 792-802. https://doi.org/10.1038/s41586-023-06725-x

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T1 - CD201+ fascia progenitors choreograph injury repair

AU - Correa-Gallegos, Donovan

AU - Ye, Haifeng

AU - Dasgupta, Bikram

AU - Sardogan, Aydan

AU - Kadri, Safwen

AU - Kandi, Ravinder

AU - Dai, Ruoxuan

AU - Lin, Yue

AU - Kopplin, Robert

AU - Shenai, Disha Shantaram

AU - Wannemacher, Juliane

AU - Ichijo, Ryo

AU - Jiang, Dongsheng

AU - Strunz, Maximilian

AU - Ansari, Meshal

AU - Angelidis, Illias

AU - Schiller, Herbert B.

AU - Voltz, Thomas

AU - Machens, Hans Günther

AU - Rinkevich, Yuval

PY - 2023/11/23

Y1 - 2023/11/23

N2 - 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.

AB - 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.

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JO - Nature

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ER -

CD201⁺ fascia progenitors choreograph injury repair

Abstract

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