双重遗传示踪揭示了一种独特的成纤维细胞亚群，可调节心脏纤维化。

Dual genetic tracing reveals a unique fibroblast subpopulation modulating cardiac fibrosis.

机构信息

State Key Laboratory of Cell Biology, Shanghai Institute of Biochemistry and Cell Biology, Center for Excellence in Molecular Cell Science, Chinese Academy of Sciences University of the Chinese Academy of Sciences, Shanghai, China.

School of Life Science and Technology, ShanghaiTech University, Shanghai, China.

出版信息

Nat Genet. 2023 Apr;55(4):665-678. doi: 10.1038/s41588-023-01337-7. Epub 2023 Mar 23.

DOI:10.1038/s41588-023-01337-7

PMID:36959363

Abstract

After severe heart injury, fibroblasts are activated and proliferate excessively to form scarring, leading to decreased cardiac function and eventually heart failure. It is unknown, however, whether cardiac fibroblasts are heterogeneous with respect to their degree of activation, proliferation and function during cardiac fibrosis. Here, using dual recombinase-mediated genetic lineage tracing, we find that endocardium-derived fibroblasts preferentially proliferate and expand in response to pressure overload. Fibroblast-specific proliferation tracing revealed highly regional expansion of activated fibroblasts after injury, whose pattern mirrors that of endocardium-derived fibroblast distribution in the heart. Specific ablation of endocardium-derived fibroblasts alleviates cardiac fibrosis and reduces the decline of heart function after pressure overload injury. Mechanistically, Wnt signaling promotes activation and expansion of endocardium-derived fibroblasts during cardiac remodeling. Our study identifies endocardium-derived fibroblasts as a key fibroblast subpopulation accounting for severe cardiac fibrosis after pressure overload injury and as a potential therapeutic target against cardiac fibrosis.

摘要

严重的心脏损伤后，成纤维细胞被激活并过度增殖形成瘢痕，导致心脏功能下降，最终发展为心力衰竭。然而，在心脏纤维化过程中，心脏成纤维细胞在激活程度、增殖和功能上是否存在异质性尚不清楚。在这里，我们使用双重组酶介导的遗传谱系追踪技术，发现心内膜来源的成纤维细胞在压力超负荷时优先增殖和扩张。成纤维细胞特异性增殖示踪显示，损伤后激活的成纤维细胞在特定区域大量扩张，其模式与心脏中心内膜源性成纤维细胞的分布模式相吻合。心内膜源性成纤维细胞的特异性消融可减轻心脏纤维化，并减少压力超负荷损伤后心脏功能的下降。机制上，Wnt 信号在心脏重塑过程中促进心内膜源性成纤维细胞的激活和扩张。我们的研究确定了心内膜源性成纤维细胞是导致压力超负荷损伤后严重心脏纤维化的关键成纤维细胞亚群，也是对抗心脏纤维化的潜在治疗靶点。

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双重遗传示踪揭示了一种独特的成纤维细胞亚群，可调节心脏纤维化。

Dual genetic tracing reveals a unique fibroblast subpopulation modulating cardiac fibrosis.

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