培养的鸡胚心脏细胞中的电致钠钙交换

Electrogenic sodium-calcium exchange in cultured embryonic chick heart cells.

作者信息

Jacob R, Lieberman M, Liu S

机构信息

Department of Physiology, Duke University Medical Center, Durham, NC 27710.

出版信息

J Physiol. 1987 Jun;387:567-88. doi: 10.1113/jphysiol.1987.sp016589.

DOI:10.1113/jphysiol.1987.sp016589

PMID:2443686

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1192520/

Abstract

The membrane potential (Em) of cultured chick embryonic heart cells depolarized to -36 mV after inhibition of the Na+-K+ pump by 0.1 mM-ouabain in a [K+]o of 24 mM: this was accompanied by a rise in Na+ content of approximately 65% in 3 min. Lowering [Na+]o to 27 mM then caused a fall in Na+ content, a rise in Ca2+ content and a small hyperpolarization of approximately 5 mV. The fall in Na+ content indicated a movement of Na+ which was in the opposite direction to the Na+ electrochemical gradient (a countergradient movement). 2. In the presence of 10 mM-Cs+ or 1 mM-Ba2+ the hyperpolarization was approximately 10 or approximately 30 mV, respectively. A 30 mV hyperpolarization took Em negative to the reversal potentials for K+, and Cl- as measured by ion-selective micro-electrodes. 3. The decay of the intracellular Na+ activity alpha iNa, in an [Na+]o of 27 mM followed a simple exponential time course (time constant, 36 s). The initial rate depended on the value to which [Na+]o was lowered in a manner suggesting a simple competitive inhibition of the exchange by external Na+. 4. The low-[Na+]o hyperpolarization was unaffected by amiloride (0.1 or 1 mM) or verapamil (20 microM). Both La3+ (1 mM) and Mn2+ (20 mM) blocked the hyperpolarization sufficiently to prevent Em hyperpolarizing negative to the reversal potentials for K+, Na+ and Cl-. 5. Re-establishing [Na+]o caused a rise in Na+ content and a countergradient drop in Ca2+ content. The effects of verapamil (20 microM), amiloride (0.1 and 1 mM), dichlorobenzamil (0.1 mM), quinidine (1 mM), Mn2+ (20 mM) and La3+ (1 mM) were tested on the movements of Na+ and Ca2+ both during exposure to an [Na+]o of 27 mM and on re-establishing [Na+]o. The only consistent and substantial effects were the attenuation by La3+ and Mn2+ and Ca2+ movements during exposure to an [Na+]o of 27 mM. However, neither La3+ nor Mn2+ affected the movements of Na+ and Ca2+ on re-establishing [Na+]o. 6. We conclude that cultured embryonic chick heart cells contain a Na+-Ca2+ exchange evidenced by the ability to cause movements of Na+ and Ca2+ which are counter to their respective electrochemical gradient and which are accompanied by downhill movements of the counter ion.(ABSTRACT TRUNCATED AT 400 WORDS)

摘要

在24 mM的细胞外钾浓度（[K⁺]ₒ）下，用0.1 mM哇巴因抑制钠钾泵后，培养的鸡胚心脏细胞的膜电位（Em）去极化至 -36 mV：这伴随着3分钟内钠含量增加约65%。然后将细胞外钠浓度（[Na⁺]ₒ）降至27 mM，导致钠含量下降、钙含量上升以及约5 mV的小幅超极化。钠含量的下降表明钠的移动方向与钠的电化学梯度相反（逆梯度移动）。2. 在存在10 mM铯离子（Cs⁺）或1 mM钡离子（Ba²⁺）的情况下，超极化分别约为10 mV或约30 mV。30 mV的超极化使Em负于通过离子选择性微电极测量的钾离子和氯离子的反转电位。3. 在27 mM的细胞外钠浓度下，细胞内钠活性（αiNa）的衰减遵循简单的指数时间进程（时间常数为36秒）。初始速率取决于细胞外钠浓度降低到的值，其方式表明存在外部钠对交换的简单竞争性抑制。4. 低细胞外钠浓度引起的超极化不受氨氯地平（0.1或1 mM）或维拉帕米（20 μM）的影响。1 mM的镧离子（La³⁺）和20 mM的锰离子（Mn²⁺）都充分阻断了超极化，以防止Em超极化至钾离子、钠离子和氯离子的反转电位以下。5. 恢复细胞外钠浓度导致钠含量上升和钙含量逆梯度下降。在暴露于27 mM的细胞外钠浓度期间以及恢复细胞外钠浓度时，测试了维拉帕米（20 μM）、氨氯地平（0.1和1 mM）、二氯苯甲酰胺（0.1 mM）、奎尼丁（1 mM）、锰离子（20 mM）和镧离子（1 mM）对钠和钙移动的影响。唯一一致且显著的影响是在暴露于27 mM的细胞外钠浓度期间，镧离子和锰离子对钙移动的衰减。然而，在恢复细胞外钠浓度时，镧离子和锰离子都不影响钠和钙的移动。6. 我们得出结论，培养的鸡胚心脏细胞含有钠钙交换体，其证据是能够引起钠和钙的移动，这些移动与其各自的电化学梯度相反，并且伴随着抗衡离子的顺梯度移动。（摘要截断于400字）