肌浆网 Ca2+ 释放终止的改变通过ryanodine 受体敏化和在心力衰竭中。

Alteration of sarcoplasmic reticulum Ca2+ release termination by ryanodine receptor sensitization and in heart failure.

机构信息

Department of Molecular Biophysics and Physiology, Rush University School of Medicine, 1750 W. Harrison Street, Chicago, IL 60612, USA.

出版信息

J Physiol. 2009 Nov 1;587(Pt 21):5197-209. doi: 10.1113/jphysiol.2009.177576. Epub 2009 Sep 7.

DOI:10.1113/jphysiol.2009.177576

PMID:19736296

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2790258/

Abstract

Many physiological processes and pharmacological agents modulate the ryanodine receptor (RyR), the primary sarcoplasmic reticulum (SR) Ca(2+) release channel in the heart. However, how such modulations translate into functional effects during cardiac excitation-contraction coupling (ECC) is much less clear. Using a low dose (250 microM) of caffeine we sensitized the RyR and examined SR Ca(2+) release using dynamic measurements of cytosolic Ca(2+) (Ca(2+)) and free Ca(2+) within the SR (Ca(2+)). In field stimulated (1 Hz) rabbit ventricular myocytes, application of 250 microM caffeine caused an initial 33% increase in SR Ca(2+) release, which was followed by a decrease in SR Ca(2+) load (28%) and steady-state SR Ca(2+) release (23%). To investigate the effects of caffeine on local SR Ca(2+) release, we measured Ca(2+) from individual release junctions during ECC as well as during spontaneous Ca(2+) sparks. In intact myocytes during ECC, caffeine increased global fractional SR Ca(2+) release by decreasing the Ca(2+) level at which local release terminated by 21%. Similarly, in permeabilized myocytes during spontaneous Ca(2+) sparks, caffeine decreased the Ca(2+) level for release termination by 12%. Finally, we examined if Ca(2+) release termination was changed in myocytes from failing hearts, where remodelling processes lead to altered RyR function. In myocytes from failing rabbit hearts, the Ca(2+) termination level for Ca(2+) sparks was 13% lower than that of non-failing myocytes. Collectively, these data suggest that altering the termination level for local Ca(2+) release may represent a novel mechanism to increase SR Ca(2+) release and contractility during ECC.

摘要

许多生理过程和药物都可以调节肌浆网钙释放通道（RyR），该通道是心脏中主要的肌浆网 Ca(2+) 释放通道。然而，在心脏兴奋-收缩偶联（ECC）过程中，这些调节如何转化为功能效应还不太清楚。本文使用低剂量（250μM）咖啡因使 RyR 敏感，并使用细胞质 Ca(2+) (Ca(2+)) 和肌浆网内游离 Ca(2+) (Ca(2+)) 的动态测量来检查 SR Ca(2+) 释放。在受到场刺激（1Hz）的兔心室肌细胞中，应用 250μM 咖啡因可使 SR Ca(2+) 释放初始增加 33%，随后 SR Ca(2+) 负荷（28%）和稳态 SR Ca(2+) 释放（23%）减少。为了研究咖啡因对局部 SR Ca(2+) 释放的影响，我们在 ECC 期间以及自发 Ca(2+) 火花期间测量了单个释放结处的 Ca(2+)。在 ECC 期间的完整肌细胞中，咖啡因通过降低局部释放终止时的 Ca(2+) 水平将全局分数 SR Ca(2+) 释放增加 21%。同样，在自发 Ca(2+) 火花期间的通透肌细胞中，咖啡因将释放终止时的 Ca(2+) 水平降低 12%。最后，我们检查了 RyR 功能改变的衰竭心脏肌细胞中 Ca(2+) 释放终止是否发生变化，在这些细胞中，重构过程导致 RyR 功能改变。在衰竭兔心肌细胞中，Ca(2+) 火花的 Ca(2+) 终止水平比非衰竭肌细胞低 13%。总的来说，这些数据表明，改变局部 Ca(2+) 释放的终止水平可能代表在 ECC 期间增加 SR Ca(2+) 释放和收缩力的一种新机制。

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