过表达钠钙交换体的转基因小鼠心室肌细胞中的钠钙交换及肌浆网钙调节
Na+-Ca2+ exchange and sarcoplasmic reticular Ca2+ regulation in ventricular myocytes from transgenic mice overexpressing the Na+-Ca2+ exchanger.
作者信息
Terracciano C M, Souza A I, Philipson K D, MacLeod K T
机构信息
Imperial College School of Medicine, National Heart and Lung Institute, Dovehouse Street, London SW3 6LY, UK.
出版信息
J Physiol. 1998 Nov 1;512 ( Pt 3)(Pt 3):651-67. doi: 10.1111/j.1469-7793.1998.651bd.x.
Abstract
- The contribution of the sarcoplasmic reticulum (SR) and Na+-Ca2+ exchanger to intracellular Ca2+ regulation in mouse cardiac myocytes was investigated by measuring contraction after variable rest intervals, rapid cooling contractures (RCCs) and fast application of caffeine. The results obtained showed differences from other species in the roles played by the SR and the Na+-Ca2+ exchanger. They suggest that in mouse ventricular myocytes there is significant Ca2+ entry via the exchanger during rest and during the latter part of the Ca2+ transient. 2. In cardiac myocytes isolated from transgenic mice overexpressing the cardiac Na+-Ca2+ exchanger the time to peak and relaxation of twitches and RCCs were faster than in control littermates. The decline of Ca2+, assessed by indo-1 fluorescence, was faster in transgenic myocytes even in the absence of Na+ and Ca2+ in the superfusing solution. This suggests that SR Ca2+ uptake is faster in these myocytes. However, no difference in the expression of SERCA2a, phospholamban or calsequestrin measured with Western blotting could be found in the two groups. 3. We measured SR Ca2+ content by integrating the caffeine-induced transient inward current. The amount of Ca2+ stored in the SR of transgenic mouse myocytes was 69 % greater than in non-transgenic littermates. The increased SR Ca2+ content may be responsible for the faster rate of SR Ca2+ release and uptake in cells from transgenic mice. 4. We performed experiments to assess whether the reversal potential of the Na+-Ca2+ exchanger (ENa-Ca) was different in transgenic cardiac cells. We measured a Ni2+-sensitive current elicited by voltage ramps in non-dialysed myocytes. The current-voltage relationship showed no difference in the reversal potential of the Na+-Ca2+ exchanger in transgenic and control myocytes. This suggests that the effects on the SR Ca2+ content in transgenic cardiac myocytes can be ascribed to the overexpression of the exchanger and are not secondary to changes in intracellular diastolic Ca2+ and Na+.
摘要
- 通过测量不同静息间隔后的收缩、快速冷却挛缩(RCCs)以及快速施加咖啡因,研究了肌浆网(SR)和钠钙交换体对小鼠心肌细胞内钙调节的作用。所得结果显示,SR和钠钙交换体所起的作用与其他物种存在差异。这些结果表明,在小鼠心室肌细胞中,静息期间以及钙瞬变后期存在通过交换体的显著钙内流。2. 在过表达心脏钠钙交换体的转基因小鼠分离出的心肌细胞中,抽搐和RCCs达到峰值的时间以及松弛速度比对照同窝小鼠更快。通过indo-1荧光评估,即使在灌流液中不存在钠和钙的情况下,转基因心肌细胞中钙的下降速度也更快。这表明这些心肌细胞中SR钙摄取更快。然而,通过蛋白质印迹法测量,两组中SERCA2a、受磷蛋白或肌集钙蛋白的表达没有差异。3. 我们通过对咖啡因诱导的瞬时内向电流进行积分来测量SR钙含量。转基因小鼠心肌细胞SR中储存的钙量比非转基因同窝小鼠多69%。SR钙含量增加可能是转基因小鼠细胞中SR钙释放和摄取速度更快的原因。4. 我们进行实验以评估转基因心脏细胞中钠钙交换体(ENa-Ca)的反转电位是否不同。我们测量了非透析心肌细胞中电压斜坡引发的镍敏感电流。电流-电压关系表明,转基因和对照心肌细胞中钠钙交换体的反转电位没有差异。这表明转基因心肌细胞中对SR钙含量的影响可归因于交换体的过表达,而非细胞内舒张期钙和钠变化的继发效应。
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