Connections: heart disease, cellular electrophysiology, and ion channels.

Abstract

Our purpose in this article is to examine the hypothesis that both myocardial disease and ischemia can alter the electrophysiologic function of the ion channels responsible for the cellular electrical activity of the heart. Changes in the intracellular and extracellular milieus occur during ischemia and can alter the electrophysiology of several species of ionic channels and the cellular electrophysiologic activity of cardiac myocytes. Included are 1) changes in extracellular [K+] and pH and in intracellular [Na+], [Ca2+], and pH; 2) accumulation of noxious metabolic products such as lysophosphatidylcholine; and 3) depletion of intracellular ATP. Finally, ischemia or disease (e.g., hypertrophy) can alter the electrophysiology of at least two types of K+ channels, the A-like channels underlying the transient outward current and the inward rectifier, by mechanisms that apparently do not involve alteration of either the intra- or extracellular milieus. Findings suggest that the expression of cardiac A-like channel function can be altered by hypertrophy and that at least one intrinsic conductance property of the inward rectifier can be altered by ischemia. We speculate that the control of expression, function, and regulation of cardiac ion channels can be affected at the molecular level by heart disease and myocardial ischemia.