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基质相互作用分子1(STIM1)-钙离子信号传导调节小鼠窦房结的自律性。

STIM1-Ca2+ signaling modulates automaticity of the mouse sinoatrial node.

作者信息

Zhang Hengtao, Sun Albert Y, Kim Jong J, Graham Victoria, Finch Elizabeth A, Nepliouev Igor, Zhao Guiling, Li Tianyu, Lederer W J, Stiber Jonathan A, Pitt Geoffrey S, Bursac Nenad, Rosenberg Paul B

机构信息

Department of Medicine, Duke University School of Medicine, Durham, NC 27704;

Department of Biomedical Engineering, Duke University, Durham, NC 27708;

出版信息

Proc Natl Acad Sci U S A. 2015 Oct 13;112(41):E5618-27. doi: 10.1073/pnas.1503847112. Epub 2015 Sep 30.

DOI:10.1073/pnas.1503847112
PMID:26424448
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4611639/
Abstract

Cardiac pacemaking is governed by specialized cardiomyocytes located in the sinoatrial node (SAN). SAN cells (SANCs) integrate voltage-gated currents from channels on the membrane surface (membrane clock) with rhythmic Ca(2+) release from internal Ca(2+) stores (Ca(2+) clock) to adjust heart rate to meet hemodynamic demand. Here, we report that stromal interaction molecule 1 (STIM1) and Orai1 channels, key components of store-operated Ca(2+) entry, are selectively expressed in SANCs. Cardiac-specific deletion of STIM1 in mice resulted in depletion of sarcoplasmic reticulum (SR) Ca(2+) stores of SANCs and led to SAN dysfunction, as was evident by a reduction in heart rate, sinus arrest, and an exaggerated autonomic response to cholinergic signaling. Moreover, STIM1 influenced SAN function by regulating ionic fluxes in SANCs, including activation of a store-operated Ca(2+) current, a reduction in L-type Ca(2+) current, and enhancing the activities of Na(+)/Ca(2+) exchanger. In conclusion, these studies reveal that STIM1 is a multifunctional regulator of Ca(2+) dynamics in SANCs that links SR Ca(2+) store content with electrical events occurring in the plasma membrane, thereby contributing to automaticity of the SAN.

摘要

心脏起搏由位于窦房结(SAN)的特殊心肌细胞控制。窦房结细胞(SANC)将来自膜表面通道的电压门控电流(膜时钟)与内部钙库有节律的钙释放(钙时钟)整合起来,以调节心率,满足血液动力学需求。在此,我们报告,储存-操纵性钙内流的关键组分基质相互作用分子1(STIM1)和Orai1通道在SANC中选择性表达。小鼠心脏特异性缺失STIM1导致SANC肌浆网(SR)钙库耗竭,并导致窦房结功能障碍,表现为心率降低、窦性停搏以及对胆碱能信号的自主反应增强。此外,STIM1通过调节SANC中的离子通量影响窦房结功能,包括激活储存-操纵性钙电流、降低L型钙电流以及增强钠/钙交换体的活性。总之,这些研究表明,STIM1是SANC中钙动力学的多功能调节因子,它将SR钙库含量与质膜中发生的电活动联系起来,从而有助于窦房结的自律性。

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本文引用的文献

1
Store-operated calcium entry and the localization of STIM1 and Orai1 proteins in isolated mouse sinoatrial node cells.钙库操纵性钙内流及 STIM1 和 Orai1 蛋白在分离的小鼠窦房结细胞中的定位。
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Sinus node dysfunction in catecholaminergic polymorphic ventricular tachycardia: risk factor and potential therapeutic target?儿茶酚胺能多形性室性心动过速中的窦房结功能障碍:危险因素及潜在治疗靶点?
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Complete atrial-specific knockout of sodium-calcium exchange eliminates sinoatrial node pacemaker activity.完全心房特异性敲除钠钙交换可消除窦房结起搏活动。
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Calsequestrin 2 deletion causes sinoatrial node dysfunction and atrial arrhythmias associated with altered sarcoplasmic reticulum calcium cycling and degenerative fibrosis within the mouse atrial pacemaker complex1.肌集钙蛋白2缺失导致窦房结功能障碍和房性心律失常,这与小鼠心房起搏复合体中肌浆网钙循环改变和退行性纤维化有关。
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RyR-NCX-SERCA local cross-talk ensures pacemaker cell function at rest and during the fight-or-flight reflex.RyR-NCX-SERCA 局部串扰确保了起搏细胞在休息时和战斗或逃跑反射期间的功能。
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Abnormal Ca(2+) homeostasis, atrial arrhythmogenesis, and sinus node dysfunction in murine hearts modeling RyR2 modification.钙稳态异常、心房心律失常发生机制和模拟 RyR2 修饰的小鼠心脏窦房结功能障碍。
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