Connexin 43 dephosphorylation mediates the Dchs1/YAP/TEAD signaling pathway to induce cardiac fibrosis

IF 4.6 2区生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY

Biochimica et biophysica acta. Molecular cell research Pub Date : 2025-02-10 DOI:10.1016/j.bbamcr.2025.119919

Min Wang , Wanning Li , Yaqing Shao , Feng Wang , Ying Huang , Chenchen Wei , Ping Li , Kangyun Sun , Xinxin Yan , Zhongshan Gou

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引用次数: 0

Abstract

Background

The gap junction protein connexin 43 (Cx43) has been implicated in the development of cardiac fibrosis. Our previous findings revealed that Cx43 dephosphorylation at serine 282 (S282) is related to cardiomyocyte apoptosis and arrhythmias in hearts damaged by ischemia/reperfusion. In this study, we investigated the role of Cx43 S282 phosphorylation in cardiac fibrosis.

Methods

We used angiotensin II (Ang II) intervention in mice to establish an in vivo cardiac fibrosis model and transforming growth factor β-1 (TGF-β1) intervention in cardiac myofibroblasts to establish an in vitro fibrosis model. The expression of Cx43 S282 phosphorylation was examined in the in vivo and in vitro models. To further confirm the effect of Cx43 S282 phosphorylation on cardiac fibrosis, we transfected cardiac myofibroblasts with lentiviral bodies in vitro, and injected myocardium with adenovirus in vivo to establish the over-expression of phosphorylation of Cx43 S282 locus and mutant groups. We sequenced the mRNA of the in vitro group using gene set enrichment analysis (GSEA) and normalized enrichment scoring (NES) to investigate the signaling pathway by which p282-Cx43 affects myocardial fibrosis (MF). The role of the Hippo signaling pathway in phosphorylation at the Cx43 282 site was further validated.

Results

In an in vivo and in vitro model of cardiac fibrosis, the level of phosphorylation of Cx43 S282 was reduced. Mutation of Cx43 S282 to a less phosphorylatable form (S282A) resulted in elevated levels of fibrosis markers, suggesting a critical antifibrotic role for phosphorylated Cx43 S282. Increased phosphorylation of Cx43 S282 produced an inhibitory effect on fibrosis. Enrichment analysis of mRNA sequencing in the mutant model group indicated that the Hippo signaling pathway was involved in the fibrosis process. Cx43 S282 phosphorylation increased the expression of Dchs1 gene, which activates the phosphorylation of yes-associated protein (YAP) and inhibits the YAP/TEAD signaling pathway to inhibit fibrosis development.

Conclusions

This study suggests that the phosphorylation of Cx43 S282 could be an effective antifibrotic target in cardiac fibroblasts. This indicates a novel mechanism and a molecular target that may hold promise for treating cardiac fibrosis.

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Connexin 43去磷酸化介导Dchs1/YAP/TEAD信号通路诱导心脏纤维化。

背景：间隙连接蛋白连接蛋白43 （Cx43）与心脏纤维化的发生有关。我们之前的研究结果表明，Cx43丝氨酸282 （S282）的去磷酸化与心肌细胞凋亡和缺血/再灌注损伤心脏的心律失常有关。在这项研究中，我们研究了Cx43 S282磷酸化在心脏纤维化中的作用。方法：采用血管紧张素II （angii）干预小鼠建立体内心肌纤维化模型，采用转化生长因子β-1 （TGF-β1）干预心肌成纤维细胞建立体外纤维化模型。在体内和体外模型中检测Cx43 S282磷酸化的表达。为了进一步证实Cx43 S282磷酸化对心脏纤维化的影响，我们在体外用慢病毒体转染心肌成纤维细胞，在体内用腺病毒注射心肌，建立Cx43 S282位点磷酸化的过表达组和突变组。我们使用基因集富集分析（GSEA）和标准化富集评分（NES）对体外组的mRNA进行测序，以研究p282-Cx43影响心肌纤维化（MF）的信号通路。进一步验证了Hippo信号通路在Cx43 282位点磷酸化中的作用。结果：在体内和体外心脏纤维化模型中，Cx43 S282的磷酸化水平降低。Cx43 S282突变为较少磷酸化形式（S282A）导致纤维化标志物水平升高，表明磷酸化的Cx43 S282具有关键的抗纤维化作用。Cx43 S282磷酸化增加对纤维化有抑制作用。突变模型组mRNA测序富集分析表明Hippo信号通路参与了纤维化过程。Cx43 S282磷酸化增加Dchs1基因表达，激活yes-associated protein （YAP）磷酸化，抑制YAP/TEAD信号通路，抑制纤维化发展。结论：本研究提示Cx43 S282的磷酸化可能是心脏成纤维细胞有效的抗纤维化靶点。这表明一种新的机制和分子靶点可能有望治疗心脏纤维化。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Biochimica et biophysica acta. Molecular cell research 生物-生化与分子生物学

CiteScore

10.00

自引率

2.00%

发文量

151

审稿时长

44 days

期刊介绍： BBA Molecular Cell Research focuses on understanding the mechanisms of cellular processes at the molecular level. These include aspects of cellular signaling, signal transduction, cell cycle, apoptosis, intracellular trafficking, secretory and endocytic pathways, biogenesis of cell organelles, cytoskeletal structures, cellular interactions, cell/tissue differentiation and cellular enzymology. Also included are studies at the interface between Cell Biology and Biophysics which apply for example novel imaging methods for characterizing cellular processes.