Gap junctions and ion channels: relevance to erectile dysfunction.

Abstract

The corporal myocyte is a critical determinant of erectile capacity whose functional integrity, in the vast majority of impotent patients, is sufficient to guarantee its relevance as a therapeutic target. As with numerous other smooth muscle cell types, ion channels are important modulators of corporal smooth muscle tone/contractility. As such, the transmembrane flow of ions (ie Ca(2+), K(+) and Cl(-)) plays an important role in modulating membrane potential and contractile status in individual human corporal smooth muscle cells, while intercellular ion flow ensures the functionality of myocyte cellular networks. The integral membrane proteins that selectively regulate many aspects of these critical transmembrane (eg K(+) and Ca(2+) channels) and intercellular (eg gap junctions) ionic movements have been identified. To date, the large conductance calcium-sensitive K(+) channel (ie K(Ca)), the metabolically regulated K+ channel (ie K(ATP)), and the L-type voltage-dependent Ca(2+) channel appear to be the most physiologically relevant nonjunctional ion channels. With respect to intercellular ionic/solute/second messenger movement, connexin43-derived gap junction channels are widely recognized as an obligatory component to normal integrative erectile biology. The presence of an intercellular pathway ensures that individual cellular alterations are carefully orchestrated in the rapid and syncytial fashion required for normal erectile function. This report reviews the known details concerning junctional and nonjunctional ion channels in human corporal tissue, and illustrates how one particular application of this knowledge, that is, preclinical studies utilizing low efficacy gene therapy (ie low transfection efficiency) with the K(Ca) channel has further confirmed the physiological relevance and therapeutic potential of gap junctions and ion channels to erectile physiology/dysfunction. International Journal of Impotence Research (2000) 12, Suppl 4, S15-S25.