In heart cells, the catecholamine-activated cyclic AMP system regulates calcium and potassium channels. We report here a novel class of chloride channels that can be activated by adrenaline in mammalian ventricular cells. Like the agonist-activated Cl- channel currents of airway and colonic epithelial cells, the cardiac Cl(-)-channel current shows outward rectification. But the unit conductance of cardiac Cl- channels is smaller than that of epithelial Cl- channels. The cardiac Cl- channel is functionally voltage-independent, in contrast to the Cl- channel in colonic epithelial cells. This channel could be responsible for the beta-catecholamine-induced increase in cardiac membrane conductance that has been attributed to activation of a Cl- current. Thus, sympathetic control of cardiac electrical activity involves not only the voltage-dependent, excitation-related cation channels, but also anion channels that generate a steady current.