Bruton tyrosine kinase promotes wound healing after myocardial infarction by inhibiting the transcription of u-PA.

IF 7.1 2区生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY Free Radical Biology and Medicine Pub Date : 2025-02-01 Epub Date: 2024-12-04 DOI:10.1016/j.freeradbiomed.2024.12.008

Zheng Dong, Jian-Bing Zhu, Shuo Cheng, Xin-Yu Weng, Xiao-Lei Sun, Ju-Ying Qian, Yun-Zeng Zou, Ai-Jun Sun, Shi-Jun Wang, Lei-Lei Ma, Jun-Bo Ge

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Abstract

Backgrounds: Bruton tyrosine kinase (BTK), which is highly expressed in immune cells, plays a critical role in regulating the function of macrophages. A growing body of evidence has demonstrated that the accumulation of macrophages in cardiac tissue after myocardial infarction (MI) significantly affects wound healing and ventricular remodeling during the early phase of repair after MI. However, the role of BTK in cardiac repair post-MI, especially in macrophage-mediated repair, remains unclear.

Methods: MI was induced by permanent left anterior descending (LAD) artery ligation in wild-type (WT) mice and macrophage-specific BTK-knockout (BTK^MAC-KO) mice. Expression of BTK and phosphorylated BTK were assessed by western blotting. Then, RNA sequencing and ChIP-qPCR assay were performed to explore potential BTK targets and transcriptional regulatory sites.

Results: BTK, which was mainly expressed in macrophages, was upregulated in mice after MI. Compared with WT mice, BTK^MAC-KO mice had significantly greater mortality due to heart rupture, reduced wall thickness and severe impairment of left ventricular (LV) function after MI. In addition, increased matrix metalloproteinase-9 (MMP-9) expression and decreased α-SMA and collagen expression were observed in BTK^MAC-KO mice after MI. Further experiments revealed that BTK deficiency in macrophages reduces the expression of VEGF and impairs angiogenesis after MI. By RNA sequencing, we found that Nf-kB family genes, as well as the urokinase-type plasminogen activator (uPA), were significantly upregulated in BTK-deficient macrophages. By ChIP-qPCR analysis, we confirmed that uPA was transcriptionally activated by the Nf-kB p65 subunit. Finally, the application of plasminogen activator inhibitor-1 (PAI-1), an uPA inhibitor, markedly protected against cardiac rupture, lowered the mortality rate, and improved cardiac function by increasing collagen deposition and promoting tissue healing in BTK^MAC-KO mice after MI.

Conclusions: The present study identifies PAI-1 as a novel cardioprotective agent for cardiac repair post-MI that increases collagen deposition and promotes tissue healing. A therapeutic strategy targeting BTK may be a promising treatment for cardiac repair post-MI.

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布鲁顿酪氨酸激酶通过抑制u-PA的转录促进心肌梗死后伤口愈合。

背景：布鲁顿酪氨酸激酶（Bruton tyrosine kinase， BTK）在免疫细胞中高表达，在调节巨噬细胞功能中起关键作用。越来越多的证据表明，心肌梗死（MI）后心脏组织中巨噬细胞的积累显著影响心肌梗死后修复早期的伤口愈合和心室重塑。然而，BTK在心肌梗死后心脏修复中的作用，特别是在巨噬细胞介导的修复中，尚不清楚。方法：对野生型（WT）小鼠和巨噬细胞特异性btk敲除（BTKMAC-KO）小鼠进行永久性左前降支（LAD）结扎诱导心肌梗死。western blotting检测BTK及磷酸化BTK的表达。然后，通过RNA测序和ChIP-qPCR检测，探索潜在的BTK靶点和转录调控位点。结果:BTK主要在巨噬细胞中表达，在心肌梗死小鼠中表达上调，与WT小鼠相比，心肌梗死后BTKMAC-KO小鼠因心脏破裂、壁厚减少和左心室功能严重受损而导致的死亡率显著增加。BTKMAC-KO小鼠心肌梗死后基质金属蛋白酶9 （MMP-9）表达升高，α-SMA和胶原蛋白表达降低。进一步的实验表明，心肌梗死后巨噬细胞中BTK缺乏降低了VEGF的表达，损害了血管生成。通过RNA测序，我们发现Nf-kB家族基因以及尿激酶型纤溶酶原激活物（uPA）在BTK缺乏的巨噬细胞中显著上调。通过ChIP-qPCR分析，我们证实了uPA被Nf-kB p65亚基转录激活。最后，应用纤溶酶原激活物抑制剂-1 (PAI-1)，一种uPA抑制剂，在心肌梗死后BTKMAC-KO小鼠中，通过增加胶原沉积和促进组织愈合，显著防止心脏破裂，降低死亡率，改善心功能。结论：本研究确定PAI-1是心肌梗死后心脏修复的新型心脏保护剂，增加胶原沉积和促进组织愈合。针对BTK的治疗策略可能是心肌梗死后心脏修复的一种有希望的治疗方法。

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

Free Radical Biology and Medicine 医学-内分泌学与代谢

CiteScore

14.00

自引率

4.10%

发文量

850

审稿时长

22 days

期刊介绍： Free Radical Biology and Medicine is a leading journal in the field of redox biology, which is the study of the role of reactive oxygen species (ROS) and other oxidizing agents in biological systems. The journal serves as a premier forum for publishing innovative and groundbreaking research that explores the redox biology of health and disease, covering a wide range of topics and disciplines. Free Radical Biology and Medicine also commissions Special Issues that highlight recent advances in both basic and clinical research, with a particular emphasis on the mechanisms underlying altered metabolism and redox signaling. These Special Issues aim to provide a focused platform for the latest research in the field, fostering collaboration and knowledge exchange among researchers and clinicians.