在分离的心肌细胞和巨大膜片中，钠钾泵对钾离子通道的激活作用。

Activation of KATP channels by Na/K pump in isolated cardiac myocytes and giant membrane patches.

作者信息

Kabakov A Y

机构信息

Department of Physiology, University of Texas, Southwestern Medical Center at Dallas, Dallas, Texas 75235 USA.

出版信息

Biophys J. 1998 Dec;75(6):2858-67. doi: 10.1016/S0006-3495(98)77728-8.

DOI:10.1016/S0006-3495(98)77728-8

PMID:9826607

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1299958/

Abstract

Strophanthidin inhibits KATP channels in 2,4-dinitrophenol-poisoned heart cells (). The current study shows that the Na/K pump interacts with KATP current (IK-ATP) via submembrane ATP depletion in isolated giant membrane patches and in nonpoisoned guinea pig cardiac cells in whole-cell configuration. IK-ATP was inhibited by ATP, glibenclamide, or intracellular Cs+. Na/K pump inactivation by substitution of cytoplasmic Na+ for Li+ or N-methylglucamine decreased both IK-ATP by 1/3 (1 mM ATP, zero calcium), and IC50 of ATP for IK-ATP (0.3 +/- 0.1 mM) by 2/5. The Na+/Li+ replacement had no effect on IK-ATP at low pump activity ([ATP] </= 0.1 mM or 100 microM ouabain) or when IK-ATP was completely inhibited by 10 mM ATP. In whole-cell configuration, ouabain inhibited up to 60% of inwardly rectifying IK-ATP at 1 mM ATP in the pipette but not at 10 mM ATP and 10 mM phosphocreatine when IK-ATP was always blocked. However, mathematical simulation of giant-patch experiments revealed that only 20% of ATP depletion may be attributed to the ATP concentration gradient in the bulk solution, and the remaining 80% probably occurs in the submembrane space.

摘要

毒毛旋花子苷元抑制2,4-二硝基苯酚中毒的心脏细胞中的KATP通道（）。当前研究表明，在分离的巨膜片以及全细胞模式下的未中毒豚鼠心脏细胞中，钠钾泵通过膜下ATP耗竭与KATP电流（IK-ATP）相互作用。IK-ATP受到ATP、格列本脲或细胞内Cs+的抑制。用Li+或N-甲基葡糖胺替代细胞质中的Na+使钠钾泵失活，使IK-ATP降低了1/3（1 mM ATP，零钙），并使ATP对IK-ATP的IC50（0.3 +/- 0.1 mM）降低了2/5。在低泵活性（[ATP]≤0.1 mM或100 microM哇巴因）时，或当IK-ATP被10 mM ATP完全抑制时，Na+/Li+替代对IK-ATP没有影响。在全细胞模式下，在移液管中加入1 mM ATP时，哇巴因可抑制高达60%的内向整流IK-ATP，但在10 mM ATP和10 mM磷酸肌酸存在时，IK-ATP始终被阻断，哇巴因则无此作用。然而，巨膜片实验的数学模拟显示，只有20%的ATP耗竭可能归因于整体溶液中的ATP浓度梯度，其余80%可能发生在膜下空间。

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