HDAC I 类抑制剂莫西司他能逆转心衰患者的心脏纤维化,并减少 CD90+ 心肌成纤维细胞的活化。

Fibrogenesis & Tissue Repair Pub Date : 2014-07-02 eCollection Date: 2014-01-01 DOI:10.1186/1755-1536-7-10
Hikmet F Nural-Guvener, Luidmila Zakharova, James Nimlos, Snjezana Popovic, Diego Mastroeni, Mohamed A Gaballa
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引用次数: 0

摘要

背景:间质纤维化和纤维化瘢痕的形成是心肌梗死(MI)和心力衰竭导致心脏重塑和心功能丧失的原因。最近的研究表明,组蛋白去乙酰化酶(HDAC)抑制剂可延缓急性心肌梗死中纤维化的形成。然而,HDAC 抑制剂是否能逆转缺血性心力衰竭的心脏纤维化尚不清楚。此外,参与心脏纤维化和肌成纤维细胞活化的特定 HDAC 同工酶还没有得到很好的界定。因此,本研究旨在确定选择性 I 类 HDAC 抑制对继发于心肌梗死的充血性心力衰竭(CHF)模型中心脏成纤维细胞活化和心脏纤维化的影响:方法:通过左前降支(LAD)冠状动脉闭塞造成心肌梗死。在体外,通过莫西司他选择性地抑制从心房和心室组织中分离出来的 CD90+ 成纤维细胞中的 I 类 HDACs。在体内,通过注射莫西司他对心肌梗死后 3 周的大鼠进行为期 3 周的治疗,抑制 I 类 HDACs。在心肌梗死后 6 周对心脏功能和心脏组织进行分析:结果:在假心脏中,HDAC1 和 HDAC2 显示出不同的表达模式,其中 HDAC1 主要在心成纤维细胞中表达,而 HDAC2 则在心肌细胞中表达。另一方面,我们发现 HDAC1 和 HDAC2 在 CHF 心脏中上调,并与 CD90+ 心肌成纤维细胞共定位。在体内用莫西替诺司他(Mocetinostat)治疗 CHF 动物,可改善左心室舒张末压和 dp/dt max,并减少胶原蛋白总量。在体外用莫西替诺司他(Mocetinostat)治疗 CD90+ 细胞,可逆转肌成纤维细胞表型,表现为α-平滑肌肌动蛋白(α-SMA)、胶原蛋白 III 和基质金属蛋白酶-2(MMP2)的减少。此外,Mocetinostat还能增加E-cadherin,诱导β-catenin定位到膜上,并减少心房成纤维细胞的Akt/GSK3β信号传导。此外,莫西司他处理心房CD90+细胞可上调裂解的Caspase3并激活p53/p21轴:综上所述,我们的研究结果表明,HDAC1 和 2 在 CHF 中上调。此外,HDAC抑制可逆转CHF的间质纤维化。HDAC抑制的抗纤维化作用可能包括逆转肌成纤维细胞活化和诱导细胞周期停滞/凋亡。
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HDAC class I inhibitor, Mocetinostat, reverses cardiac fibrosis in heart failure and diminishes CD90+ cardiac myofibroblast activation.

Background: Interstitial fibrosis and fibrotic scar formation contribute to cardiac remodeling and loss of cardiac function in myocardial infarction (MI) and heart failure. Recent studies showed that histone deacetylase (HDAC) inhibitors retard fibrosis formation in acute MI settings. However, it is unknown whether HDAC inhibition can reverse cardiac fibrosis in ischemic heart failure. In addition, specific HDAC isoforms involved in cardiac fibrosis and myofibroblast activation are not well defined. Thus, the purpose of this study is to determine the effects of selective class I HDAC inhibition on cardiac fibroblasts activation and cardiac fibrosis in a congestive heart failure (CHF) model secondary to MI.

Methods: MI was created by left anterior descending (LAD) coronary artery occlusion. Class I HDACs were selectively inhibited via Mocetinostat in CD90+ fibroblasts isolated from atrial and ventricular heart tissue in vitro. In vivo, Class I HDACs were inhibited in 3 weeks post MI rats by injecting Mocetinostat for the duration of 3 weeks. Cardiac function and heart tissue were analyzed at 6 weeks post MI.

Results: In sham hearts, HDAC1 and HDAC2 displayed differential expression patterns where HDAC1 mainly expressed in cardiac fibroblast and HDAC2 in cardiomyocytes. On the other hand, we showed that HDAC1 and 2 were upregulated in CHF hearts, and were found to co-localize with CD90+ cardiac fibroblasts. In vivo treatment of CHF animals with Mocetinostat improved left ventricle end diastolic pressure and dp/dt max and decreased the total collagen amount. In vitro treatment of CD90+ cells with Mocetinostat reversed myofibroblast phenotype as indicated by a decrease in α-Smooth muscle actin (α-SMA), Collagen III, and Matrix metalloproteinase-2 (MMP2). Furthermore, Mocetinostat increased E-cadherin, induced β-catenin localization to the membrane, and reduced Akt/GSK3β signaling in atrial cardiac fibroblasts. In addition, Mocetinostat treatment of atrial CD90+ cells upregulated cleaved-Caspase3 and activated the p53/p21 axis.

Conclusions: Taken together, our results demonstrate upregulation of HDAC1 and 2 in CHF. In addition, HDAC inhibition reverses interstitial fibrosis in CHF. Possible anti-fibrotic actions of HDAC inhibition include reversal of myofibroblast activation and induction of cell cycle arrest/apoptosis.

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