Increased Exchange Current but Normal Ca2+ Transport via Na+-Ca2+ Exchange During Cardiac Hypertrophy After Myocardial Infarction

A. Gómez, B. Schwaller, H. Porzig, G. Vassort, E. Niggli, M. Egger
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引用次数: 66

Abstract

Abstract— Hypertrophied and failing cardiac myocytes generally show alterations in intracellular Ca2+ handling associated with changes in the contractile function and arrhythmogenicity. The cardiac Na+-Ca2+ exchange (NCX) is an important mechanism for Ca2+ extrusion and cell relaxation. Its possible involvement in changes of excitation-contraction coupling (EC-coupling) with disease remains uncertain. We analyzed the NCX function in rat ventricular myocytes 5 to 6 months after experimental myocardial infarction (PMI) produced by left coronary artery ligation and from sham-operated (SO) hearts. Caged Ca2+ was dialyzed into the cytoplasm via a patch-clamp pipette and Ca2+ was released by flash photolysis to activate NCX and measure the associated currents (INaCa), whereas [Ca2+]i changes were simultaneously recorded with a confocal microscope. INaCa density normalized to the [Ca2+]i jumps was 2.6-fold higher in myocytes from PMI rats. The level of total NCX protein expression in PMI myocytes was also increased. Interestingly, although the INaCa density in PMI cells was larger, PMI and SO myocytes presented virtually identical Ca2+ transport via the NCX. This discrepancy was explained by a reduced surface/volume ratio (34.8%) observed in PMI cells. We conclude that the increase in NCX density may be a mechanism to maintain the required Ca2+ extrusion from a larger cell to allow adequate relaxation.
心肌梗死后心肌肥厚期间交换电流增加,但通过Na+-Ca2+交换Ca2+转运正常
肥大和衰竭的心肌细胞通常表现出与收缩功能和心律失常改变相关的细胞内Ca2+处理的改变。心脏Na+-Ca2+交换(NCX)是Ca2+挤压和细胞松弛的重要机制。其可能参与兴奋-收缩耦合(EC-coupling)与疾病的变化仍不确定。我们分析了左冠状动脉结扎和假手术心肌梗死后5 ~ 6个月大鼠心室肌细胞NCX的功能。通过膜片钳移液管将Ca2+透析到细胞质中,并通过闪光光解释放Ca2+以激活NCX并测量相关电流(INaCa),而共聚焦显微镜同时记录[Ca2+]i的变化。在PMI大鼠的肌细胞中,与[Ca2+]i跳跃归一化的INaCa密度高出2.6倍。PMI肌细胞中NCX总蛋白表达水平也升高。有趣的是,尽管PMI细胞中的INaCa密度更大,但PMI和SO肌细胞通过NCX呈现出几乎相同的Ca2+转运。这种差异的原因是PMI细胞的表面积/体积比降低了34.8%。我们得出结论,NCX密度的增加可能是维持所需的Ca2+从更大的细胞中挤出以允许充分松弛的机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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