病理性基质硬度通过 POU2F1 信号通路促进心脏成纤维细胞分化。

Pathological matrix stiffness promotes cardiac fibroblast differentiation through the POU2F1 signaling pathway.

机构信息

Department of Cardiology and Institute of Vascular Medicine, Peking University Third Hospital; NHC Key Laboratory of Cardiovascular Molecular Biology and Regulatory Peptides; Key Laboratory of Molecular Cardiovascular Science, Ministry of Education; Beijing Key Laboratory of Cardiovascular Receptors Research, Beijing, 100191, China.

Division of Cardiovascular Sciences, Faculty of Biology Medicine and Health, University of Manchester, Manchester, M13 9PT, UK.

出版信息

Sci China Life Sci. 2021 Feb;64(2):242-254. doi: 10.1007/s11427-019-1747-y. Epub 2020 Jun 29.

DOI:10.1007/s11427-019-1747-y

PMID:32617828

Abstract

Cardiac fibroblast (CF) differentiation into myofibroblasts is a crucial cause of cardiac fibrosis, which increases in the extracellular matrix (ECM) stiffness. The increased stiffness further promotes CF differentiation and fibrosis. However, the molecular mechanism is still unclear. We used bioinformatics analysis to find new candidates that regulate the genes involved in stiffness-induced CF differentiation, and found that there were binding sites for the POU-domain transcription factor, POU2F1 (also known as Oct-1), in the promoters of 50 differentially expressed genes (DEGs) in CFs on the stiffer substrate. Immunofluorescent staining and Western blotting revealed that pathological stiffness upregulated POU2F1 expression and increased CF differentiation on polyacrylamide hydrogel substrates and in mouse myocardial infarction tissue. A chromatin immunoprecipitation assay showed that POU2F1 bound to the promoters of fibrosis repressors IL1R2, CD69, and TGIF2. The expression of these fibrosis repressors was inhibited on pathological substrate stiffness. Knockdown of POU2F1 upregulated these repressors and attenuated CF differentiation on pathological substrate stiffness (35 kPa). Whereas, overexpression of POU2F1 downregulated these repressors and enhanced CF differentiation. In conclusion, pathological stiffness upregulates the transcription factor POU2F1 to promote CF differentiation by inhibiting fibrosis repressors. Our work elucidated the crosstalk between CF differentiation and the ECM and provided a potential target for cardiac fibrosis treatment.

摘要

心脏成纤维细胞 (CF) 向肌成纤维细胞的分化是心脏纤维化的一个关键原因，它会导致细胞外基质 (ECM) 硬度增加。增加的硬度进一步促进 CF 分化和纤维化。然而，其分子机制仍不清楚。我们使用生物信息学分析找到了新的候选物，这些候选物可以调节与硬度诱导的 CF 分化相关的基因，我们发现，在更硬的基质上 CF 中 50 个差异表达基因 (DEG) 的启动子中有 POU 结构域转录因子 POU2F1（也称为 Oct-1）的结合位点。免疫荧光染色和 Western blot 显示，病理性硬度上调了 POU2F1 的表达，并增加了聚丙稀酰胺水凝胶基质上和小鼠心肌梗死组织中的 CF 分化。染色质免疫沉淀试验显示，POU2F1 与纤维化抑制剂 IL1R2、CD69 和 TGIF2 的启动子结合。在病理性基质硬度下，这些纤维化抑制剂的表达受到抑制。POU2F1 的敲低上调了这些抑制剂，减弱了 CF 在病理性基质硬度（35 kPa）下的分化。而 POU2F1 的过表达则下调了这些抑制剂，并增强了 CF 的分化。总之，病理性硬度上调转录因子 POU2F1，通过抑制纤维化抑制剂来促进 CF 分化。我们的工作阐明了 CF 分化与 ECM 之间的串扰，并为心脏纤维化的治疗提供了一个潜在的靶点。

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病理性基质硬度通过 POU2F1 信号通路促进心脏成纤维细胞分化。

Pathological matrix stiffness promotes cardiac fibroblast differentiation through the POU2F1 signaling pathway.

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