Modulation of voltage-dependent facilitation of the T-type calcium current by sodium ion in isolated frog atrial cells.

摘要

Sodium ions have been reported to alter the permeation properties of L- and N-type Ca2+ channels. Here in frog atrial cardiomyocytes under whole-cell patch-clamp conditions, we have examined the effects of lowering the external Na+ concentration on the amplitude of T-type Ca2+ current, ICaT, and on the relief of its steady-state inactivation by large depolarizing prepulses, ICaT facilitation. A partial reduction in Na+ ion concentration did not significantly alter ICaT amplitude elicited at -50 mV. However, after a large depolarization, low- Na+ solutions enhanced the relief of inactivation and induced ICaT facilitation. This facilitation occurred independently of the divalent charge carrier, high intracellular Ca2+ buffering or the intracellular Na+ content. Its effects were additional to the beta-adrenergic effects mediated by a decrease of Gi/o-protein inhibitory tone. In Ca2+-free solution the very large T-type current, then carried by Na+ ions, showed only a weak relief of inactivation. In conclusion, ICaT facilitation--which, as previously reported, is modulated by the transient voltage-dependent relief of Gi-protein inhibitory tone--is further enhanced in a low-Na+ solution. In Ca2+-free solution, relief of inactivation due to re-openings dependent on the divalent charge carrier is improbable. It thus appears that for a short while after a large depolarization, external Na+ compete with Ca2+ ions on permeation-controlling sites, so as to modulate channel re-openings and thus the amplitude of voltage-facilitated ICaT independently of the control exerted by the inhibitory G-protein.