在单条鲨鱼(棘鲨)心室肌细胞中,细胞内钠离子通过钠钙交换对收缩的调节作用
Modulation of contraction by intracellular Na+ via Na(+)-Ca2+ exchange in single shark (Squalus acanthias) ventricular myocytes.
作者信息
Näbauer M, Morad M
机构信息
Department of Physiology, University of Pennsylvania, Philadelphia 19104-6085.
出版信息
J Physiol. 1992 Nov;457:627-37. doi: 10.1113/jphysiol.1992.sp019398.
Abstract
- The effect of direct alteration of intracellular Na+ concentration on contractile properties of whole-cell clamped shark ventricular myocytes was studied using an array of 256 photodiodes to monitor the length of the isolated myocytes. 2. In myocytes dialysed with Na(+)-free solution, the voltage dependence of Ca2+ current (ICa) and contraction were similar and bell shaped. Contractions activated at all voltages were completely suppressed by nifedipine (5 microM), and failed to show significant tonic components, suggesting dependence of the contraction on Ca2+ influx through the L-type Ca2+ channel. 3. In myocytes dialysed with 60 mM Na+, a ICa-dependent and a ICa-independent component of contraction could be identified. The Ca2+ current-dependent component was prominent in voltages between -30 to +10 mV. The ICa-independent contractions were maintained for the duration of depolarization, increased with increasing depolarization between +10 to +100 mV, and were insensitive to nifedipine. 4. In such myocytes, repolarization produced slowly decaying inward tail currents closely related to the time course of relaxation and the degree of shortening prior to repolarization. 5. With 60 mM Na+ in the pipette solution, positive clamp potentials activated decaying outward currents which correlated to the size of contraction. These outward currents appeared to be generated by the Na(+)-Ca(2+)-exchanger since they depended on the presence of intracellular Na+, and were neither suppressed by nifedipine nor by K+ channel blockers. 6. The results suggest that in shark (Squalus acanthias) ventricular myocytes, which lack functionally relevant Ca2+ release pools, both Ca2+ channel and the Na(+)-Ca2+ exchanger deliver sufficient Ca2+ to activate contraction, though the effectiveness of the latter mechanism was highly dependent on the [Na+]i.
摘要
- 使用256个光电二极管阵列监测分离的心肌细胞长度,研究了细胞内钠离子浓度的直接改变对全细胞钳制的鲨鱼心室肌细胞收缩特性的影响。2. 在用无钠溶液透析的心肌细胞中,钙电流(ICa)和收缩的电压依赖性相似且呈钟形。在所有电压下激活的收缩均被硝苯地平(5微摩尔)完全抑制,且未显示出明显的强直成分,表明收缩依赖于通过L型钙通道的钙内流。3. 在用60毫摩尔钠透析的心肌细胞中,可以识别出收缩的ICa依赖性和ICa非依赖性成分。钙电流依赖性成分在-30至+10毫伏的电压之间最为显著。ICa非依赖性收缩在去极化期间持续存在,在+10至+100毫伏之间随着去极化增加而增加,并且对硝苯地平不敏感。4. 在这些心肌细胞中,复极化产生缓慢衰减的内向尾电流,这与松弛的时间进程以及复极化前的缩短程度密切相关。5. 当移液管溶液中有60毫摩尔钠时,正向钳制电位激活与收缩大小相关的衰减外向电流。这些外向电流似乎是由钠钙交换体产生的,因为它们依赖于细胞内钠离子的存在,并且既不被硝苯地平也不被钾通道阻滞剂抑制。6. 结果表明,在缺乏功能相关钙释放池的鲨鱼(棘鲨)心室肌细胞中,钙通道和钠钙交换体都能提供足够的钙来激活收缩,尽管后一种机制的有效性高度依赖于细胞内钠离子浓度。
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