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心脏中的点状钙释放。

Quarky calcium release in the heart.

机构信息

Center for Biomedical Engineering and Technology, University of Maryland, Baltimore, MD, USA.

出版信息

Circ Res. 2011 Jan 21;108(2):210-8. doi: 10.1161/CIRCRESAHA.110.231258. Epub 2010 Dec 9.

DOI:10.1161/CIRCRESAHA.110.231258
PMID:21148431
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3036985/
Abstract

RATIONALE

In cardiac myocytes, "Ca(2+) sparks" represent the stereotyped elemental unit of Ca(2+) release arising from activation of large arrays of ryanodine receptors (RyRs), whereas "Ca(2+) blinks" represent the reciprocal Ca(2+) depletion signal produced in the terminal cisterns of the junctional sarcoplasmic reticulum. Emerging evidence, however, suggests possible substructures in local Ca(2+) release events.

OBJECTIVE

With improved detection ability and sensitivity provided by simultaneous spark-blink pair measurements, we investigated possible release events that are smaller than sparks and their interplay with regular sparks.

METHODS AND RESULTS

We directly visualized small solitary release events amid noise: spontaneous Ca(2+) quark-like or "quarky" Ca(2+) release (QCR) events in rabbit ventricular myocytes. Because the frequency of QCR events in paced myocytes is much higher than the frequency of Ca(2+) sparks, the total Ca(2+) leak attributable to the small QCR events is approximately equal to that of the spontaneous Ca(2+) sparks. Furthermore, the Ca(2+) release underlying a spark consists of an initial high-flux stereotypical release component and a low-flux highly variable QCR component. The QCR part of the spark, but not the initial release, is sensitive to cytosolic Ca(2+) buffering by EGTA, suggesting that the QCR component is attributable to a Ca(2+)-induced Ca(2+) release mechanism. Experimental evidence, together with modeling, suggests that QCR events may depend on the opening of rogue RyR2s (or small cluster of RyR2s).

CONCLUSIONS

QCR events play an important role in shaping elemental Ca(2+) release characteristics and the nonspark QCR events contribute to "invisible" Ca(2+) leak in health and disease.

摘要

理由

在心肌细胞中,“Ca(2+)火花”代表源自ryanodine 受体 (RyR) 大阵列激活的 Ca(2+)释放的典型基本单元,而“Ca(2+)闪烁”代表连接的肌质网终末中产生的反向 Ca(2+)耗竭信号。然而,新出现的证据表明局部 Ca(2+)释放事件可能存在亚结构。

目的

通过同时测量火花-闪烁对来提高检测能力和灵敏度,我们研究了可能小于火花的释放事件及其与常规火花的相互作用。

方法和结果

我们直接在噪声中观察到小的孤立释放事件:兔心室肌细胞中的自发 Ca(2+) quark 样或“quarky”Ca(2+)释放 (QCR) 事件。由于起搏心肌细胞中 QCR 事件的频率远高于 Ca(2+)火花的频率,因此归因于小 QCR 事件的总 Ca(2+)泄漏量约等于自发 Ca(2+)火花的总 Ca(2+)泄漏量。此外,引发火花的 Ca(2+)释放由初始高通量典型释放组成部分和低通量高度可变的 QCR 组成部分组成。QCR 部分的火花,但不是初始释放,对 EGTA 介导的胞质 Ca(2+)缓冲敏感,表明 QCR 部分归因于 Ca(2+)-诱导的 Ca(2+)释放机制。实验证据与建模一起表明,QCR 事件可能依赖于 rogue RyR2s(或 RyR2 小簇)的开放。

结论

QCR 事件在塑造基本 Ca(2+)释放特征方面发挥重要作用,非火花 QCR 事件有助于健康和疾病中的“不可见”Ca(2+)泄漏。

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