Alcohol and the calcium-dependent potassium transport of human erythrocytes

doi:10.1016/0741-8329(85)90033-3

Alcohol

Volume 2, Issue 1, January–February 1985, Pages 149-152

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Abstract

In vitro exposure of human red blood cells to ethanol (100 and 400 mM) was found to increase the initial rate of calcium-dependent potassium efflux through the red cell membrane. This effect of ethanol was apparently not due to an elevation of the intracellular free calcium but rather to a direct action of the drug on the transport process as, (1) intracellular calcium concentrations were tightly buffered with EGTA, (2) ethanol did not alter the efflux of ⁴⁵Ca from the cells, and (3) dantrolene, which has been proposed to counteract the effect of ethanol on intracellular calcium levels in the erythrocyte, did not inhibit the stimulatory action of ethanol. The efflux of postassium from erythrocytes obtained from chronic alcoholics was not different from that of erythrocytes from non-alcoholic individuals. The relationship of these findings to neuronal potassium transport is discussed.

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Cited by (6)

Ethanol increases the activity of Ca++ -dependent K+ (mslo) channels: Functional interaction with cytosolic Ca++
1998, Journal of Pharmacology and Experimental Therapeutics
Ethanol increases the activity of large conductance, Ca2+-activated K+ channels in isolated neurohypophysial terminals
1996, Molecular Pharmacology
Chronic Alcohol Intake Induces Reversible Disturbances on Cellular Na+ Metabolism in Humans: Its Relationship with Changes in Blood Pressure
1992, Alcoholism: Clinical and Experimental Research
Disturbances of transmembranous sodium transport systems induced by ethanol in human erythrocytes
1989, American Journal of Hypertension
Disturbances in Na+ Transport Systems Induced by Ethanol in Human Red Blood Cells
1988, Alcoholism: Clinical and Experimental Research
Membrane Effects of Ethanol in Excitable Cells
1987, Journal of Basic and Clinical Physiology and Pharmacology

^☆: Supported by funds from the Veterans Administration and grant AA06399.

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Alcohol

Abstract

References (16)

Comparison of adrenergic receptor binding in blood cells from alcoholics and controls

Alcohol

Effects of anesthetic and anticonvulsant drugs on calcium-dependent efflux of potassium from human erythrocytes

Eur J Pharmacol

Determination of free Ca ion concentrations with an ion-selective electrode in the presence of chelating agents in comparison with calculated values

Anal Biochem

Calcium transport and the properties of a calcium-activated potassium channel in red cell membranes

Curr Top Membranes Transport

Calcium-dependent ⁸⁶Rb efflux and ethanol intoxication: Studies of human red blood cells and rodent brain synaptosomes

Eur J Pharmacol

Effects of ethanol and barbiturates on Ca⁺⁺-ATPase activity of erythrocyte and brain membranes

Biochem Pharmacol

Dantrolene

Can Anaesth Soc J

Calcium-activated outward current in voltage-clamped hippocampal neurones of the guinea-pig

J Physiol

Cited by (6)

Ethanol increases the activity of Ca<sup>++</sup> -dependent K<sup>+</sup> (mslo) channels: Functional interaction with cytosolic Ca<sup>++</sup>

Ethanol increases the activity of large conductance, Ca<sup>2+</sup>-activated K<sup>+</sup> channels in isolated neurohypophysial terminals

Chronic Alcohol Intake Induces Reversible Disturbances on Cellular Na<sup>+</sup> Metabolism in Humans: Its Relationship with Changes in Blood Pressure

Disturbances of transmembranous sodium transport systems induced by ethanol in human erythrocytes

Disturbances in Na<sup>+</sup> Transport Systems Induced by Ethanol in Human Red Blood Cells

Membrane Effects of Ethanol in Excitable Cells

Alcohol and the calcium-dependent potassium transport of human erythrocytes☆

Abstract

Alcohol

Eur J Pharmacol

Anal Biochem

Curr Top Membranes Transport

Eur J Pharmacol

Biochem Pharmacol

Dantrolene

Can Anaesth Soc J

Calcium-activated outward current in voltage-clamped hippocampal neurones of the guinea-pig

J Physiol