Effect of tetraethylammonium chloride on action potential in cardiac Purkinje fibers

Abstract

Intracellular loading with 20 mM tetraethylammonium chloride (TEA) diffusing through the cut end of the preparations prolonged action potential duration (APD) in dog Purkinje fibers without changing maximum diastolic potential, overshoot, and dV/dtmax. The APD was prolonged at all rates of stimulation, but, contrary to the normal rules, APD increased more after longer than after shorter interstimulus intervals. TEA increased the number of beats required to achieve the new steady-state APD after an abrupt change in the rate of stimulation. The effect of varying extracellular potassium concentration on maximal diastolic potential suggested that intracellular loading with TEA had no effect on the time-independent "background" outward current (IK1). If we ascribe all observed TEA effects to the reduction of time dependent slow outward current Ix1, we can propose a hypothesis concerning the role of Ix1 in the regulation of APD at slow heart rates.