Cooperative regulation of Cav1.2 channels by intracellular Mg2+, the proximal C-terminal EF-hand, and the distal C-terminal domain

Abstract

L-type Ca2+ currents conducted by Cav1.2 channels initiate excitation-contraction coupling in cardiac myocytes. Intracellular Mg2+ (Mgi) inhibits the ionic current of Cav1.2 channels. Because Mgi is altered in ischemia and heart failure, its regulation of Cav1.2 channels is important in understanding cardiac pathophysiology. Here, we studied the effects of Mgi on voltagedependent inactivation (VDI) of Cav1.2 channels using Na + as permeant ion to eliminate the effects of permeant divalent cations that engage the Ca2+dependent inactivation process. We confirmed that increased Mgi reduces peak ionic currents and increases VDI of Cav1.2 channels in ventricular myocytes and in transfected cells when measured with Na+ as permeant ion. The increased rate and extent of VDI caused by increased Mgi were substantially reduced by mutations of a cationbinding residue in the proximal Cterminal EFhand, consistent with the conclusion that both reduction of peak currents and enhancement of VDI result from the binding of Mgi to the EFhand (KD ≈ 0.9 mM) near the resting level of Mgi in ventricular myocytes. VDI was more rapid for Ltype Ca2+ currents in ventricular myocytes than for Cav1.2 channels in transfected cells. Coexpression of Cavβ2b subunits and formation of an autoinhibitory complex of truncated Cav1.2 channels with noncovalently bound distal Cterminal domain (DCT) both increased VDI in transfected cells, indicating that the subunit structure of the Cav1.2 channel greatly influences its VDI. The effects of noncovalently bound DCT on peak current amplitude and VDI required Mgi binding to the proximal Cterminal EFhand and were prevented by mutations of a key divalent cationbinding amino acid residue. Our results demonstrate cooperative regulation of peak current amplitude and VDI of Cav1.2 channels by Mgi, the proximal Cterminal EFhand, and the DCT, and suggest that conformational changes that regulate VDI are propagated from the DCT through the proximal Cterminal EFhand to the channelgating mechanism. © 2009 Brunet et al.