The relationship between charge movements associated with ICa and INa-Ca in cardiac myocytes
- PMID: 2158147
- DOI: 10.1126/science.2158147
The relationship between charge movements associated with ICa and INa-Ca in cardiac myocytes
Abstract
Ventricular myocytes exhibit a nifedipine-sensitive inward calcium current (ICa) and contracture when they are voltage clamped from -40 to 0 millivolt in the presence of caffeine and in the absence of extracellular sodium. However, upon repolarization they fail to relax because neither the sarcoplasmic reticulum nor the sodium-calcium exchange can reduce intracellular calcium. Sudden application of extracellular sodium during the contracture (but after repolarization) causes immediate relaxation and activates a transient inward sodium-calcium exchange current (INa-Ca), whose peak slightly precedes mechanical relaxation. The total charge carried by the nifedipine-sensitive ICa is twice the total charge carried by the transient inward INa-Ca. Assuming an exchange stoichiometry of three sodium to one calcium, these results indicate that all the calcium entering the cell during the initial depolarization is extruded by the sodium-calcium exchange.
Comment in
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Sodium-calcium exchange in excitable cells: fuzzy space.Science. 1990 Apr 20;248(4953):283. doi: 10.1126/science.2326638. Science. 1990. PMID: 2326638 No abstract available.
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