二元组织在兔心室肌细胞静息时对肌浆网钙（Ca2+）处理调节中的作用。

The role of dyadic organization in regulation of sarcoplasmic reticulum Ca(2+) handling during rest in rabbit ventricular myocytes.

作者信息

Bovo Elisa, de Tombe Pieter P, Zima Aleksey V

机构信息

Department of Cell and Molecular Physiology, Loyola University Chicago, Stritch School of Medicine, Maywood, Illinois.

出版信息

Biophys J. 2014 May 6;106(9):1902-9. doi: 10.1016/j.bpj.2014.03.032.

DOI:10.1016/j.bpj.2014.03.032

PMID:24806922

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4017277/

Abstract

The dyadic organization of ventricular myocytes ensures synchronized activation of sarcoplasmic reticulum (SR) Ca(2+) release during systole. However, it remains obscure how the dyadic organization affects SR Ca(2+) handling during diastole. By measuring intraluminal SR Ca(2+) ([Ca(2+)]SR) decline during rest in rabbit ventricular myocytes, we found that ∼76% of leaked SR Ca(2+) is extruded from the cytosol and only ∼24% is pumped back into the SR. Thus, the majority of Ca(2+) that leaks from the SR is removed from the cytosol before it can be sequestered back into the SR by the SR Ca(2+)-ATPase (SERCA). Detubulation decreased [Ca(2+)]SR decline during rest, thus making the leaked SR Ca(2+) more accessible for SERCA. These results suggest that Ca(2+) extrusion systems are localized in T-tubules. Inhibition of Na(+)-Ca(2+) exchanger (NCX) slowed [Ca(2+)]SR decline during rest by threefold, however did not prevent it. Depolarization of mitochondrial membrane potential during NCX inhibition completely prevented the rest-dependent [Ca(2+)]SR decline. Despite a significant SR Ca(2+) leak, Ca(2+) sparks were very rare events in control conditions. NCX inhibition or detubulation increased Ca(2+) spark activity independent of SR Ca(2+) load. Overall, these results indicate that during rest NCX effectively competes with SERCA for cytosolic Ca(2+) that leaks from the SR. This can be explained if the majority of SR Ca(2+) leak occurs through ryanodine receptors in the junctional SR that are located closely to NCX in the dyadic cleft. Such control of the dyadic [Ca(2+)] by NCX play a critical role in suppressing Ca(2+) sparks during rest.

摘要

心室肌细胞的二元组织确保了收缩期肌浆网（SR）Ca²⁺释放的同步激活。然而，二元组织如何影响舒张期SR Ca²⁺的处理仍不清楚。通过测量兔心室肌细胞静息时腔内SR Ca²⁺（[Ca²⁺]SR）的下降，我们发现约76%泄漏的SR Ca²⁺从细胞质中挤出，只有约24%被泵回SR。因此，从SR泄漏的大部分Ca²⁺在被SR Ca²⁺-ATP酶（SERCA）重新隔离回SR之前就从细胞质中被清除了。去管化减少了静息时[Ca²⁺]SR的下降，从而使泄漏的SR Ca²⁺更容易被SERCA利用。这些结果表明Ca²⁺挤出系统定位于T小管。抑制钠钙交换体（NCX）使静息时[Ca²⁺]SR的下降减慢了三倍，但并不能阻止其下降。NCX抑制期间线粒体膜电位的去极化完全阻止了依赖于静息的[Ca²⁺]SR下降。尽管SR有明显的Ca²⁺泄漏，但在对照条件下Ca²⁺火花是非常罕见的事件。NCX抑制或去管化增加了Ca²⁺火花活性，而与SR Ca²⁺负荷无关。总体而言，这些结果表明，在静息期间，NCX有效地与SERCA竞争从SR泄漏到细胞质中的Ca²⁺。如果SR Ca²⁺的大部分泄漏通过连接SR中的兰尼碱受体发生，而这些受体位于二元裂隙中与NCX紧密相邻的位置，那么这一点就可以得到解释。NCX对二元[Ca²⁺]的这种控制在静息期间抑制Ca²⁺火花中起关键作用。

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