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Department of Pharmacology, University of Washington, Seattle, WA 98195

Correspondence to Sylvain Brunet: sbrunet{at}u.washington.edu

L-type Ca²⁺ currents conducted by Ca_v1.2 channels initiate excitation–contraction coupling in cardiac myocytes. Intracellular Mg²⁺ (Mg_i) inhibits the ionic current of Ca_v1.2 channels. Because Mg_i is altered in ischemia and heart failure, its regulation of Ca_v1.2 channels is important in understanding cardiac pathophysiology. Here, we studied the effects of Mg_i on voltage-dependent inactivation (VDI) of Ca_v1.2 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 Mg_i reduces peak ionic currents and increases VDI of Ca_v1.2 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 Mg_i were substantially reduced by mutations of a cation-binding residue in the proximal C-terminal EF-hand, consistent with the conclusion that both reduction of peak currents and enhancement of VDI result from the binding of Mg_i to the EF-hand (K_D 0.9 mM) near the resting level of Mg_i in ventricular myocytes. VDI was more rapid for L-type Ca²⁺ currents in ventricular myocytes than for Ca_v1.2 channels in transfected cells. Coexpression of Ca_vβ_2b subunits and formation of an autoinhibitory complex of truncated Ca_v1.2 channels with noncovalently bound distal C-terminal domain (DCT) both increased VDI in transfected cells, indicating that the subunit structure of the Ca_v1.2 channel greatly influences its VDI. The effects of noncovalently bound DCT on peak current amplitude and VDI required Mg_i binding to the proximal C-terminal EF-hand and were prevented by mutations of a key divalent cation-binding amino acid residue. Our results demonstrate cooperative regulation of peak current amplitude and VDI of Ca_v1.2 channels by Mg_i, the proximal C-terminal EF-hand, and the DCT, and suggest that conformational changes that regulate VDI are propagated from the DCT through the proximal C-terminal EF-hand to the channel-gating mechanism.

© 2009 Brunet et al.
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