Modal gating of human Ca(v)2.1 (P/Q-type) calcium channels: I. The slow and the fast gating modes and their modulation by beta subunits

The single channel gating properties of human Ca(V)2.1 (P/Q-type) calcium channels and their modulation by the auxiliary beta(1b), beta(2c), beta(3a), and beta(4a), subunits were investigated with cell-attached patch-clamp recordings on HEK293 cells stably expressing human Ca(V)2.1 channels. These calcium channels showed a complex modal grating. which is described in this and the following paper (Fellin, T., S. Luvisetto, M. Spagnolo, and D. Pietrobon. 2004. J Gen. Physiol. 124:463-474). Here, we report the characterization of two modes of gating of human Ca(V)2.1 channels, the slow mode and the fast mode. A channel in the two gating modes differs in mean closed times and latency to first opening (both longer in the slow mode), in voltage dependence of the open probability (larger depolarizations are necessary to open the channel in the slow mode), in kinetics of inactivation (slowed in the slow mode), and voltage dependence of steady-state inactivation (occurring at less negative voltages in the slow mode). Ca(V)2.1 channels containing any of the four beta subtypes can gate in either the slow or the fast mode, with only minor differences in the rate constants of the transitions between closed and open states within each mode. In both modes; Ca(V)2.1 channels display different rates of inactivation and different steady-state inactivation depending oil the P subtype. The type of beta subunit also modulates the relative occurrence of the slow and the fast gating mode of Ca(V)2.1 channels, beta(3a), promotes the fast mode, whereas beta(4a) Promotes the slow mode. The prevailing mode of gating, of Ca(V)2.1 channels lacking a beta subunit is a gating mode in which the channel shows shorter mean open times, longer mean closed times, longer first latency, a much larger fraction of mills, and activates at more positive voltages than in either the fast or slow mode.