Epac2-Rap1信号通路调控活性氧生成及对心律失常的易感性。

Epac2-Rap1 Signaling Regulates Reactive Oxygen Species Production and Susceptibility to Cardiac Arrhythmias.

作者信息

Yang Zhaokang, Kirton Hannah M, Al-Owais Moza, Thireau Jérôme, Richard Sylvain, Peers Chris, Steele Derek S

机构信息

1 Faculty of Biological Sciences, School of Biomedical Sciences, University of Leeds , Leeds, United Kingdom .

2 Division of Cardiovascular Medicine, Faculty of Medicine and Health, University of Leeds , Leeds, United Kingdom .

出版信息

Antioxid Redox Signal. 2017 Jul 20;27(3):117-132. doi: 10.1089/ars.2015.6485. Epub 2016 Oct 27.

DOI:10.1089/ars.2015.6485

PMID:27649969

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5510674/

Abstract

AIMS

In the heart, β-adrenergic signaling involves cyclic adenosine monophosphate (cAMP) acting via both protein kinase-A (PKA) and exchange protein directly activated by cAMP (Epac): a guanine nucleotide exchange factor for the small GTPase Rap1. Inhibition of Epac-Rap1 signaling has been proposed as a therapeutic strategy for both cancer and cardiovascular disease. However, previous work suggests that impaired Rap1 signaling may have detrimental effects on cardiac function. The aim of the present study was to investigate the influence of Epac2-Rap1 signaling on the heart using both in vivo and in vitro approaches.

RESULTS

Inhibition of Epac2 signaling induced early afterdepolarization arrhythmias in ventricular myocytes. The underlying mechanism involved an increase in mitochondrial reactive oxygen species (ROS) and activation of the late sodium current (INa). Arrhythmias were blocked by inhibition of INa or the mitochondria-targeted antioxidant, mitoTEMPO. In vivo, inhibition of Epac2 caused ventricular tachycardia, torsades de pointes, and sudden death. The in vitro and in vivo effects of Epac2 inhibition were mimicked by inhibition of geranylgeranyltransferase-1, which blocks interaction of Rap1 with downstream targets.

INNOVATION

Our findings show for the first time that Rap1 acts as a negative regulator of mitochondrial ROS production in the heart and that impaired Epac2-Rap1 signaling causes arrhythmias due to ROS-dependent activation of INa. This has implications for the use of chemotherapeutics that target Epac2-Rap1 signaling. However, selective inhibition of INa provides a promising strategy to prevent arrhythmias caused by impaired Epac2-Rap1 signaling.

CONCLUSION

Epac2-Rap1 signaling attenuates mitochondrial ROS production and reduces myocardial arrhythmia susceptibility. Antioxid. Redox Signal. 27, 117-132.

摘要

目的

在心脏中，β-肾上腺素能信号传导涉及通过蛋白激酶A（PKA）和直接由环磷酸腺苷（cAMP）激活的交换蛋白（Epac）起作用的环磷酸腺苷（cAMP）：一种小GTP酶Rap1的鸟嘌呤核苷酸交换因子。抑制Epac-Rap1信号传导已被提出作为癌症和心血管疾病的治疗策略。然而，先前的研究表明，Rap1信号传导受损可能对心脏功能产生不利影响。本研究的目的是使用体内和体外方法研究Epac2-Rap1信号传导对心脏的影响。

结果

抑制Epac2信号传导可诱导心室肌细胞早期后去极化心律失常。潜在机制涉及线粒体活性氧（ROS）增加和晚期钠电流（INa）激活。通过抑制INa或线粒体靶向抗氧化剂mitoTEMPO可阻断心律失常。在体内，抑制Epac2会导致室性心动过速、尖端扭转型室速和猝死。抑制香叶基香叶基转移酶-1可模拟Epac2抑制的体外和体内效应，该酶可阻断Rap1与下游靶点的相互作用。

创新

我们的研究结果首次表明，Rap1在心脏中作为线粒体ROS产生的负调节因子，并且Epac2-Rap1信号传导受损会由于ROS依赖性激活INa而导致心律失常。这对靶向Epac2-Rap1信号传导的化疗药物的使用具有重要意义。然而，选择性抑制INa为预防由Epac2-Rap1信号传导受损引起的心律失常提供了一种有前景的策略。

结论

Epac2-Rap1信号传导可减弱线粒体ROS产生并降低心肌心律失常易感性。《抗氧化与氧化还原信号》27, 117 - 132。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e4ea/5510674/bf13f4e9ad41/fig-1.jpg

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Epac2-Rap1信号通路调控活性氧生成及对心律失常的易感性。

Epac2-Rap1 Signaling Regulates Reactive Oxygen Species Production and Susceptibility to Cardiac Arrhythmias.

作者信息

机构信息

出版信息

AIMS

RESULTS

INNOVATION

CONCLUSION

目的

结果

创新

结论

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