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心动过速诱导心房肌细胞亚细胞Ca2+信号传导沉默。

Tachycardia-induced silencing of subcellular Ca2+ signaling in atrial myocytes.

作者信息

Greiser Maura, Kerfant Benoît-Gilles, Williams George S B, Voigt Niels, Harks Erik, Dibb Katharine M, Giese Anne, Meszaros Janos, Verheule Sander, Ravens Ursula, Allessie Maurits A, Gammie James S, van der Velden Jolanda, Lederer W Jonathan, Dobrev Dobromir, Schotten Ulrich

出版信息

J Clin Invest. 2014 Nov;124(11):4759-72. doi: 10.1172/JCI70102. Epub 2014 Oct 20.

DOI:10.1172/JCI70102
PMID:25329692
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4347234/
Abstract

Atrial fibrillation (AF) is characterized by sustained high atrial activation rates and arrhythmogenic cellular Ca2+ signaling instability; however, it is not clear how a high atrial rate and Ca2+ instability may be related. Here, we characterized subcellular Ca2+ signaling after 5 days of high atrial rates in a rabbit model. While some changes were similar to those in persistent AF, we identified a distinct pattern of stabilized subcellular Ca2+ signaling. Ca2+ sparks, arrhythmogenic Ca2+ waves, sarcoplasmic reticulum (SR) Ca2+ leak, and SR Ca2+ content were largely unaltered. Based on computational analysis, these findings were consistent with a higher Ca2+ leak due to PKA-dependent phosphorylation of SR Ca2+ channels (RyR2s), fewer RyR2s, and smaller RyR2 clusters in the SR. We determined that less Ca2+ release per [Ca2+]i transient, increased Ca2+ buffering strength, shortened action potentials, and reduced L-type Ca2+ current contribute to a stunning reduction of intracellular Na+ concentration following rapid atrial pacing. In both patients with AF and in our rabbit model, this silencing led to failed propagation of the [Ca2+]i signal to the myocyte center. We conclude that sustained high atrial rates alone silence Ca2+ signaling and do not produce Ca2+ signaling instability, consistent with an adaptive molecular and cellular response to atrial tachycardia.

摘要

心房颤动(AF)的特征是心房激活率持续升高以及致心律失常的细胞Ca2+信号不稳定;然而,尚不清楚高心房率与Ca2+不稳定之间可能存在何种关联。在此,我们在兔模型中对高心房率5天后的亚细胞Ca2+信号进行了表征。虽然一些变化与持续性AF中的变化相似,但我们发现了一种稳定的亚细胞Ca2+信号的独特模式。Ca2+火花、致心律失常的Ca2+波、肌浆网(SR)Ca2+泄漏以及SR Ca2+含量基本未改变。基于计算分析,这些发现与由于SR Ca2+通道(RyR2s)的PKA依赖性磷酸化导致的更高Ca2+泄漏、更少的RyR2s以及SR中更小的RyR2簇一致。我们确定,每个[Ca2+]i瞬变时Ca2+释放减少、Ca2+缓冲强度增加、动作电位缩短以及L型Ca2+电流减少,导致快速心房起搏后细胞内Na+浓度惊人地降低。在AF患者和我们的兔模型中,这种沉默导致[Ca2+]i信号无法传播到心肌细胞中心。我们得出结论,仅持续的高心房率会使Ca2+信号沉默,而不会产生Ca2+信号不稳定,这与对房性心动过速的适应性分子和细胞反应一致。

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Proc Natl Acad Sci U S A. 2014 Jul 29;111(30):11193-8. doi: 10.1073/pnas.1324132111. Epub 2014 Jul 14.
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Function and regulation of serine/threonine phosphatases in the healthy and diseased heart.丝氨酸/苏氨酸磷酸酶在健康和患病心脏中的功能和调节。
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Na⁺ transport in the normal and failing heart - remember the balance.正常和衰竭心脏中的 Na⁺ 转运——记住平衡。
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Myofilament Ca sensitization increases cytosolic Ca binding affinity, alters intracellular Ca homeostasis, and causes pause-dependent Ca-triggered arrhythmia.肌球蛋白丝 Ca 敏化增加细胞溶质 Ca 结合亲和力,改变细胞内 Ca 动态平衡,并导致与停顿相关的 Ca 触发心律失常。
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Enhanced sarcoplasmic reticulum Ca2+ leak and increased Na+-Ca2+ exchanger function underlie delayed afterdepolarizations in patients with chronic atrial fibrillation.在慢性心房颤动患者中,增强的肌浆网 Ca2+ 泄漏和增加的 Na+-Ca2+ 交换器功能是延迟后除极的基础。
Circulation. 2012 May 1;125(17):2059-70. doi: 10.1161/CIRCULATIONAHA.111.067306. Epub 2012 Mar 28.
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Transverse tubules are a common feature in large mammalian atrial myocytes including human.横管是包括人类在内的大型哺乳动物心房肌细胞的共同特征。
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