Modulation of CaV1.2 Channels by Mg2+ Acting at an EF-hand Motif in the COOH-terminal Domain

doi:10.1085/jgp.200509333

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Published online 12 September 2005 doi:10.1085/jgp.200509333
The Rockefeller University Press, 0022-1295 $8.00
JGP, Volume 126, Number 4, 311-323

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ARTICLE

Modulation of Ca_V1.2 Channels by Mg²⁺ Acting at an EF-hand Motif in the COOH-terminal Domain

Sylvain Brunet¹, Todd Scheuer¹, Rachel Klevit², and William A. Catterall¹

¹ Department of Pharmacology, University of Washington, Seattle, WA 98195
² Department of Biochemistry, University of Washington, Seattle, WA 98195

Correspondence to William A. Catterall: wcatt{at}u.washington.edu

Magnesium levels in cardiac myocytes change in cardiovasculardiseases. Intracellular free magnesium (Mg_i) inhibits L-typeCa²⁺ currents through Ca_V1.2 channels in cardiac myocytes, butthe mechanism of this effect is unknown. We hypothesized thatMg_i acts through the COOH-terminal EF-hand of Ca_V1.2. EF-handmutants were engineered to have either decreased (D1546A/N/S/K)or increased (K1543D and K1539D) Mg²⁺ affinity. In whole-cellpatch clamp experiments, increased Mg_i reduced both Ba²⁺ andCa²⁺ currents conducted by wild type (WT) Ca_V1.2 channels expressedin tsA-201 cells with similar affinity. Exposure of WT Ca_V1.2to lower Mg_i (0.26 mM) increased the amplitudes of Ba²⁺ currents2.6 ± 0.4–fold without effects on the voltage dependenceof activation and inactivation. In contrast, increasing Mg_ito 2.4 or 7.2 mM reduced current amplitude to 0.5 ± 0.1and 0.26 ± 0.05 of the control level at 0.8 mM Mg_i. Theeffects of Mg_i on peak Ba²⁺ currents were approximately fitby a single binding site model with an apparent K_d of 0.65 mM.The apparent K_d for this effect of Mg_i was shifted $~$ 3.3- to 16.5-foldto higher concentration in D1546A/N/S mutants, with only smalleffects on the voltage dependence of activation and inactivation.Moreover, mutant D1546K was insensitive to Mg_i up to 7.2 mM.In contrast to these results, peak Ba²⁺ currents through theK1543D mutant were inhibited by lower concentrations of Mg_icompared with WT, consistent with approximately fourfold reductionin apparent K_d for Mg_i, and inhibition of mutant K1539D by Mg_iwas also increased comparably. In addition to these effects,voltage-dependent inactivation of K1543D and K1539D was incompleteat positive membrane potentials when Mg_i was reduced to 0.26or 0.1 mM, respectively. These results support a novel mechanismlinking the COOH-terminal EF-hand with modulation of Ca_V1.2channels by Mg_i. Our findings expand the repertoire of modulatoryinteractions taking place at the COOH terminus of Ca_V1.2 channels,and reveal a potentially important role of Mg_i binding to theCOOH-terminal EF-hand in regulating Ca²⁺ influx in physiologicaland pathophysiological states.

Abbreviations used in this paper: Mg_i, intracellular free magnesium;WT, wild-type.

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