细胞质质子抑制豚鼠心脏细胞中钠钙交换体的机制。
The mechanism by which cytoplasmic protons inhibit the sodium-calcium exchanger in guinea-pig heart cells.
作者信息
Doering A E, Lederer W J
机构信息
Department of Physiology, School of Medicine, University of Maryland at Baltimore 21201.
出版信息
J Physiol. 1993 Jul;466:481-99.
Abstract
- We recorded cardiac sodium-calcium exchange current (INa-Ca) in giant excised membrane patches obtained from cardiac myocytes of the adult guinea-pig. 2. Rapid changes in ion concentrations on the cytoplasmic side of the excised membrane patch were produced using a modified oil-gate bath. 3. Sodium-calcium exchange current was activated by step increases in sodium concentration on the cytoplasmic side of the membrane ([Na+]i), which led to an increase in outward INa-Ca to a new steady-state level. The [Na+]i required to half-maximally activate the sodium-calcium exchange current (K1/2) was 21 mM. 4. Step increases in cytoplasmic calcium concentration ([Ca2+]i) stimulated the [Na+]i-activated INa-Ca up to 1 microM [Ca2+]i, then inhibited the exchange current at very high [Ca2+]i (1 mM). 5. A step decrease in cytoplasmic pH from 7.2 to 6.4 (increase in [H+]i) produced a biphasic but monotonic decrease in INa-Ca. Alkalinization of cytoplasmic pH from 7.2 to 8.0 caused a large, biphasic increase in INa-Ca. 6. When INa-Ca was activated by a step increase in [Na+]i and [H+]i was simultaneously increased, the outward current rose to a peak and then declined to a low steady level. The peak current seen was always less than the maximum current produced by an identical elevation of [Na+]i at constant pHi. This reduction in peak outward current reflected a rapid 'primary' inhibition of the sodium-calcium exchange by protons. The decay of the sodium-calcium exchange current following the peak was slow and corresponded to the time course of the onset of a 'secondary' proton block. 7. Rapid primary inhibition of the sodium-calcium exchanger could also be produced by cytoplasmic acidification in the absence of cytoplasmic sodium. The primary blockade was revealed when a subsequent increase in [Na+]i activated INa-Ca and a smaller peak outward current was observed. Secondary inhibition of the sodium-calcium exchanger was not, however, produced by cytoplasmic acidification in the absence of cytoplasmic sodium. Regardless of the duration of exposure to elevated [H+]i, the 'secondary' block by protons was still seen on activation of INa-Ca by increased [Na+]i as a gradual reduction of outward current amplitude. 8. Treatment of the sodium-calcium exchanger with the proteolytic enzyme alpha-chymotrypsin largely removed its sensitivity to protons. 9. We conclude that the action of alpha-chymotrypsin on the monomeric sodium-calcium exchange protein is in part to remove a proton-sensitive regulatory component(s) or render the regulation ineffective.(ABSTRACT TRUNCATED AT 400 WORDS)
摘要
- 我们在从成年豚鼠心肌细胞获取的巨大离体膜片中记录了心脏钠钙交换电流(INa-Ca)。2. 使用改良的油闸浴在离体膜片的细胞质侧产生离子浓度的快速变化。3. 钠钙交换电流通过膜细胞质侧钠浓度([Na+]i)的逐步增加而激活,这导致外向INa-Ca增加至新的稳态水平。半最大激活钠钙交换电流(K1/2)所需的[Na+]i为21 mM。4. 细胞质钙浓度([Ca2+]i)的逐步增加刺激[Na+]i激活的INa-Ca,直至[Ca2+]i达到1 microM,然后在非常高的[Ca2+]i(1 mM)时抑制交换电流。5. 细胞质pH从7.2降至6.4([H+]i增加)导致INa-Ca呈双相但单调下降。细胞质pH从7.2碱化至8.0导致INa-Ca大幅双相增加。6. 当通过[Na+]i的逐步增加激活INa-Ca且[H+]i同时增加时,外向电流先升至峰值然后降至低稳态水平。观察到的峰值电流总是小于在恒定pHi下相同[Na+]i升高所产生的最大电流。外向峰值电流的这种降低反映了质子对钠钙交换的快速“初级”抑制。峰值后钠钙交换电流的衰减缓慢,与“次级”质子阻断开始的时间进程相对应。7. 在没有细胞质钠的情况下,细胞质酸化也可产生钠钙交换体的快速初级抑制。当随后[Na+]i增加激活INa-Ca且观察到较小的外向峰值电流时,揭示了初级阻断。然而,在没有细胞质钠的情况下,细胞质酸化不会产生钠钙交换体的次级抑制。无论暴露于升高的[H+]i的持续时间如何,当通过增加[Na+]i激活INa-Ca时,仍可见质子引起的“次级”阻断,表现为外向电流幅度逐渐降低。8. 用蛋白水解酶α-胰凝乳蛋白酶处理钠钙交换体在很大程度上消除了其对质子的敏感性。9. 我们得出结论,α-胰凝乳蛋白酶对单体钠钙交换蛋白的作用部分是去除质子敏感的调节成分或使调节无效。(摘要截断于400字)
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