成纤维细胞
细胞生物学
祖细胞
生物
祖细胞
平衡
成纤维细胞生长因子
胰腺
先天性淋巴细胞
免疫学
利基
干细胞
细胞分化
伤口愈合
发育生物学
FGF10型
淋巴系统
再生(生物学)
葡萄糖稳态
重组激活基因
命运图
作者
Thomas Wei-Lam Yip,Julie Stockis,Charlotte Simpson,Erika E. McCartney,Shwetha Raghunathan,Martha M. Rangel‐Sosa,Sydney N. Hummel,Julia Moreno-Vicente,Gianmarco Raddi,Celine Garcia,Rugile Linkutė,Silvain Pinaud,Maye F. Cheng,Lesley A. Hill,T. Michael Underhill,Hans‐Reimer Rodewald,Christoph Schneider,Claus Jørgensen,Andrew N. J. McKenzie,Sophie E. Acton
出处
期刊:Science
[American Association for the Advancement of Science]
日期:2026-07-02
卷期号:393 (6806): eaea5113-eaea5113
标识
DOI:10.1126/science.aea5113
摘要
Local fibroblast development and densities influence organ health and disease, although it remains unclear how tissue fibroblast topography is controlled in situ. Here, we defined Group 2 innate lymphoid cells (ILC2s) as key regulators of fibroblast homeostasis in the pancreas. ILC2s colocalized with fibroblasts expressing the genes Pi16 + Dpp4 + Ly6c + in an interstitial niche of the exocrine pancreas, which encapsulates the organ parenchyma. ILC2s specifically regulated the expansion of Pi16 + Dpp4 + Ly6c + fibroblasts, which have progenitor capacity, while restraining differentiated intraparenchymal Col15a1 + fibroblasts during inflammation. These circuits reinforced fibroblast numbers after injury and set an inflammatory threshold. The ILC2 and Pi16 + Dpp4 + Ly6c + fibroblast progenitor niche expanded around tumors and controlled cancer-associated fibroblast ontogeny and density. Hence, ILC2-fibroblast dialogue represents a regulatory node that locally orchestrates tissue homeostasis and pathology.
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