Effect of transmembrane pH gradient changes on potassium-induced relaxation in vascular smooth muscle.

In bicarbonate-buffered solution the Ba++-induced contraction of rat aorta was relaxed by an elevated extracellular K+ concentration. When the pH of the bicarbonate-buffered solution was lowered or the buffer system of the solution changed from bicarbonate to Tris or HEPES, the K+-induced relaxation was strongly inhibited. Raising the pH of the Tris-buffered solution restored the effect of K+. Addition of NH4+, which is known to cause a transient increase in intracellular pH, transiently inhibited and subsequently augmented the K+-induced vasodilation in all solutions. It is suggested that the K+-induced vasodilation results from membrane hyperpolarization following enhanced Na+, K+-ATPase activity and that this K+-induced vasodilation is affected by changes in the transmembrane pH gradient.