兔和大鼠心室肌细胞肌膜钙通道电流的比较。
Comparison of sarcolemmal calcium channel current in rabbit and rat ventricular myocytes.
作者信息
Yuan W, Ginsburg K S, Bers D M
机构信息
Department of Physiology, Loyola University Chicago School of Medicine, Maywood, IL 60153, USA.
出版信息
J Physiol. 1996 Jun 15;493 ( Pt 3)(Pt 3):733-46. doi: 10.1113/jphysiol.1996.sp021418.
Abstract
- Fundamental properties of Ca2+ channel currents in rat and rabbit ventricular myocytes were measured using whole cell voltage clamp. 2. In rat, as compared with rabbit myocytes, Ca2+ channel current (ICa) was half-activated at about 10 mV more negative potential, decayed slower, was half-inactivated (in steady state) at about 5 mV more positive potential, and recovered faster from inactivation. 3. These features result in a larger steady-state window current in rat, and also suggest that under comparable voltage clamp conditions, including action potential (AP) clamp, more Ca2+ influx would be expected in rat myocytes. 4. Ca2+ channel current carried by Na+ and Cs+ in the absence of divalent ions (Ins) also activated at more negative potential and decayed more slowly in rat. 5. The reversal potential for Ins was 6 mV more positive in rabbit, consistent with a larger permeability ratio (PNa/PCs) in rabbit than in rat. ICa also reversed at slightly more positive potentials in rabbit (such that PCa/PCs might also be higher). 6. Ca2+ influx was calculated by integration of ICa evoked by voltage clamp pulses (either square pulses or pulses based on recorded rabbit or rat APs). For a given clamp waveform, the Ca2+ influx was up to 25% greater in rat, as predicted from the fundamental properties of ICa and Ins. 7. However, the longer duration of the AP in rabbit myocytes compensated for the difference in influx, such that the integrated Ca2+ influx via ICa in response to the species-appropriate waveform was about twice as large as that seen in rat.
摘要
- 使用全细胞电压钳测量大鼠和兔心室肌细胞中Ca2+通道电流的基本特性。2. 与兔心肌细胞相比,大鼠Ca2+通道电流(ICa)在负电位约高10 mV时被半激活,衰减较慢,在正电位约高5 mV时半失活(稳态),且从失活状态恢复较快。3. 这些特性导致大鼠的稳态窗口电流更大,也表明在包括动作电位(AP)钳制在内的可比电压钳制条件下,大鼠心肌细胞中预期会有更多的Ca2+内流。4. 在无二价离子(Ins)时,由Na+和Cs+携带的Ca2+通道电流在大鼠中也在更负的电位激活且衰减更慢。5. 兔中Ins的反转电位正6 mV,这与兔中比大鼠更大的通透率比(PNa/PCs)一致。兔中ICa也在稍正的电位反转(使得PCa/PCs也可能更高)。6. 通过对电压钳脉冲(方波脉冲或基于记录的兔或大鼠动作电位的脉冲)诱发的ICa进行积分来计算Ca2+内流。对于给定的钳制波形,正如从ICa和Ins的基本特性所预测的,大鼠中的Ca2+内流高达25%更高。7. 然而,兔心肌细胞中动作电位的持续时间更长弥补了内流的差异,使得响应物种合适波形通过ICa的积分Ca2+内流约为大鼠中的两倍。
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