A voltage-clamp protocol demonstrated the existence of a small-amplitude inward L-type Ca2+ window current in single cardiac Purkinje cells, distinct from slow inactivation.
The study provides direct measurement of L-type Ca2+ window current in cardiac Purkinje cells, distinguishing it from slow inactivation and demonstrating its pharmacological modulation.
The activation and inactivation relations of several ion channel currents overlap, suggesting the existence of a steady-state or "window" current. We studied L-type Ca2+ channel window current in single cardiac Purkinje cells using a voltage-clamp protocol by which channels were first inactivated nearly completely during a long-duration depolarizing step, and then the recovery of Ca2+ current was observed during repolarizing steps into the L-type Ca2+ window voltage range. With these conditions, a small-amplitude inward Ca2+ current gradually developed after repolarization to voltages within the window but not after steps to voltages positive or negative to it. Window current was suppressed by Cd2+ (50 microM), nifedipine (1 microM), and nicardipine (1 microM), and it was augmented by isoproterenol (5 microM) and Bay K 8644 (1 microM). At voltages at which window current developed, L-type Ca2+ channels also recovered to a closed state from which they could be reopened by an additional depolarizing step. At voltages positive to the window range, channel recovery to a closed state(s) was absent, whereas at voltages negative to the window range, channel recovery to a closed state(s) increased, as expected from the "steady-state" inactivation relation. Our results provide direct measurement of L-type Ca2+ window current and distinguish it from other processes, such as slow inactivation. Our findings support the postulate that within a window there occur channel transitions from inactivated to closed states, and these channels (re)open, and this process may occur repetitively. Some physiological and pathophysiological roles for L-type Ca2+ window current are discussed.
Hirano et al. (Sun,) reported a other. Voltage-clamp protocol was evaluated on L-type Ca2+ window current. A voltage-clamp protocol demonstrated the existence of a small-amplitude inward L-type Ca2+ window current in single cardiac Purkinje cells, distinct from slow inactivation.