间充质干细胞
纤维化
伤口愈合
人口
癌症研究
生物
细胞
细胞外基质
巨噬细胞
细胞生物学
成纤维细胞
下调和上调
细胞生长
免疫学
病理
医学
上皮-间质转换
细胞迁移
肌成纤维细胞
细胞外
化学
作者
Xinyi Ma,Ergang Wang,Vijitha Puviindran,Ziyuan Su,Xiaoxi Liu,Eijiro Shimada,Chengsong Yan,Yining Liu,Zhenyu Li,Puvi Nadesan,Koji Ishikawa,Makoto Nakagawa,Zeyu Huang,Xiao-fan Wang,Benjamin A. Alman
标识
DOI:10.1038/s41467-026-69449-2
摘要
Fibrosis commonly occurs during adult skin wound healing, characterized by excessive extracellular matrix (ECM), leading to scarring. Mesenchymal cells, the primary ECM-producing population, are heterogeneous with varying fibrotic propensity during healing. While pro-fibrotic embryonically derived mesenchymal lineages have been identified, adult mesenchymal cells responsible for fibrosis are not yet fully characterized. In adult mice with conditional macrophage depletion during the early phase of wound healing, wounds exhibit attenuated fibrosis and a reduction in mesenchymal cell numbers. Here we show that early phase macrophage induces a distinct PDGFRα⁺ mesenchymal population expressing Fcer1g. This cell population expands rapidly after injury, shows high proliferative activity, and is largely absent when macrophages are depleted. Targeted ablation of this cell population does not delay wound closure but results in diminished scarring. Human wound datasets identified a transcriptionally conserved FCER1G-expressing mesenchymal subset, suggesting that this pro-fibrotic mesenchymal state is preserved in human wound healing.
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