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肌质网ryanodine 受体腔钙传感器调控 calsequestrin 敲除小鼠的钙离子波、室性心律失常和心肌肥厚。

The cardiac ryanodine receptor luminal Ca2+ sensor governs Ca2+ waves, ventricular tachyarrhythmias and cardiac hypertrophy in calsequestrin-null mice.

机构信息

*Rush University Medical Center, 1750 West Harrison Street, 1229 JS, Chicago, IL 60612, U.S.A.

†Division of Cardiovascular Medicine, Department of Internal Medicine, University of Iowa Carver College of Medicine, 200 Hawkins Drive, Iowa City, IA 52242, U.S.A.

出版信息

Biochem J. 2014 Jul 1;461(1):99-106. doi: 10.1042/BJ20140126.

DOI:10.1042/BJ20140126
PMID:24758151
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4277184/
Abstract

CASQ2 (cardiac calsequestrin) is commonly believed to serve as the SR (sarcoplasmic reticulum) luminal Ca2+ sensor. Ablation of CASQ2 promotes SCWs (spontaneous Ca2+ waves) and CPVT (catecholaminergic polymorphic ventricular tachycardia) upon stress but not at rest. How SCWs and CPVT are triggered by stress in the absence of the CASQ2-based luminal Ca2+ sensor is an important unresolved question. In the present study, we assessed the role of the newly identified RyR2 (ryanodine receptor 2)-resident luminal Ca2+ sensor in determining SCW propensity, CPVT susceptibility and cardiac hypertrophy in Casq2-KO (knockout) mice. We crossbred Casq2-KO mice with RyR2 mutant (E4872Q+/-) mice, which lack RyR2-resident SR luminal Ca2+ sensing, to generate animals with both deficiencies. Casq2+/- and Casq2-/- mice showed stress-induced VTs (ventricular tachyarrhythmias), whereas Casq2+/-/E4872Q+/- and Casq2-/-/E4872Q+/- mice displayed little or no stress-induced VTs. Confocal Ca2+ imaging revealed that Casq2-/- hearts frequently exhibited SCWs after extracellular Ca2+ elevation or adrenergic stimulation, whereas Casq2-/-/E4872Q+/- hearts had few or no SCWs under the same conditions. Cardiac hypertrophy developed and CPVT susceptibility increased with age in Casq2-/- mice, but not in Casq2-/-/E4872Q+/- mice. However, the amplitudes and dynamics of voltage-induced Ca2+ transients in Casq2-/- and Casq2-/-/E4872Q+/- hearts were not significantly different. Our results indicate that SCWs, CPVT and hypertrophy in Casq2-null cardiac muscle are governed by the RyR2-resident luminal Ca2+ sensor. This implies that defects in CASQ2-based lumi-nal Ca2+ sensing can be overridden by the RyR2-resident luminal Ca2+ sensor. This makes this RyR2-resident sensor a promising molecular target for the treatment of Ca2+-mediated arrhythmias.

摘要

CASQ2(心肌钙结合蛋白 2)通常被认为是肌质网腔钙离子传感器。CASQ2 缺失可促进应激时而非静息时自发性钙波(SCWs)和儿茶酚胺敏感性多形性室性心动过速(CPVT)的发生。在没有基于 CASQ2 的腔钙传感器的情况下,应激如何引发 SCWs 和 CPVT 是一个重要的悬而未决的问题。在本研究中,我们评估了新鉴定的 RyR2(ryanodine receptor 2)驻留腔钙传感器在确定 Casq2-KO(敲除)小鼠的 SCW 倾向、CPVT 易感性和心脏肥大中的作用。我们将 Casq2-KO 小鼠与缺乏 RyR2 驻留肌质网腔钙感应的 RyR2 突变(E4872Q+/-)小鼠杂交,以产生同时具有这两种缺陷的动物。Casq2+/-和 Casq2-/-小鼠表现出应激诱导的室性心动过速(VTs),而 Casq2+/-/E4872Q+/-和 Casq2-/-/E4872Q+/-小鼠在相同条件下很少或没有应激诱导的 VTs。共聚焦钙离子成像显示,Casq2-/-心脏在细胞外 Ca2+升高或肾上腺素刺激后常发生 SCWs,而 Casq2-/-/E4872Q+/-心脏在相同条件下很少或没有 SCWs。在 Casq2-/-小鼠中,随着年龄的增长,心脏肥大和 CPVT 易感性增加,但在 Casq2-/-/E4872Q+/-小鼠中则没有。然而,Casq2-/-和 Casq2-/-/E4872Q+/-心脏的电压诱导钙瞬变的幅度和动力学没有显著差异。我们的结果表明,Casq2 缺失心肌中的 SCWs、CPVT 和肥大受 RyR2 驻留腔钙传感器控制。这表明基于 CASQ2 的腔钙感应的缺陷可以被 RyR2 驻留腔钙传感器所掩盖。这使得这个 RyR2 驻留传感器成为治疗钙介导心律失常的有前途的分子靶点。

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本文引用的文献

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The ryanodine receptor store-sensing gate controls Ca2+ waves and Ca2+-triggered arrhythmias.兰尼碱受体钙库感知门控控制钙离子波和钙离子触发的心律失常。
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Mechanism of calsequestrin regulation of single cardiac ryanodine receptor in normal and pathological conditions.钙结合蛋白调节正常和病理条件下单一心房肌兰尼碱受体的机制。
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Phospholamban knockout breaks arrhythmogenic Ca²⁺ waves and suppresses catecholaminergic polymorphic ventricular tachycardia in mice.肌浆网磷蛋白敲除可阻断致心律失常性 Ca²⁺波并抑制小鼠儿茶酚胺敏感性多形性室性心动过速。
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In situ confocal imaging in intact heart reveals stress-induced Ca(2+) release variability in a murine catecholaminergic polymorphic ventricular tachycardia model of type 2 ryanodine receptor(R4496C+/-) mutation.在完整心脏中的共聚焦成像揭示了 2 型兰尼碱受体(R4496C+/-)突变型儿茶酚胺多形性室性心动过速小鼠模型中应激诱导的 Ca(2+)释放变异性。
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