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MEMBRANE TRANSPORTERS, ION CHANNELS, AND PUMPS

Channel phosphorylation and modulation of L-type Ca²⁺ currents by cytosolic Mg²⁺ concentration

Department of Pharmacology and Physiology, New Jersey Medical School, University of Medicine and Dentistry of New Jersey, Newark, New Jersey

Submitted 18 November 2005 ; accepted in final form 5 February 2006

Previous studies have shown that inhibition of L-type Ca²⁺ current (I_Ca) by cytosolic free Mg²⁺ concentration ([Mg²⁺]_i) is profoundly affected by activation of cAMP-dependent protein kinase pathways. To investigate the mechanism underlying this counterregulation of I_Ca, rat cardiac myocytes and tsA201 cells expressing L-type Ca²⁺ channels were whole cell voltage-clamped with patch pipettes in which [Mg²⁺] ([Mg²⁺]_p) was buffered by citrate and ATP. In tsA201 cells expressing wild-type Ca²⁺ channels (_1C/_2A/₂), increasing [Mg²⁺]_p from 0.2 mM to 1.8 mM decreased peak I_Ca by 76 ± 4.5% (n = 7). Mg²⁺-dependent modulation of I_Ca was also observed in cells loaded with ATP--S. With 0.2 mM [Mg²⁺]_p, manipulating phosphorylation conditions by pipette application of protein kinase A (PKA) or phosphatase 2A (PP_2A) produced large changes in I_Ca amplitude; however, with 1.8 mM [Mg²⁺]_p, these same manipulations had no significant effect on I_Ca. With mutant channels lacking principal PKA phosphorylation sites (_1C/S1928A/_{2A/S478A/S479A}/₂), increasing [Mg²⁺]_p had only small effects on I_Ca. However, when channel open probability was increased by _1C-subunit truncation (_1C1905/_{2A/S478A/S479A}/₂), increasing [Mg²⁺]_p greatly reduced peak I_Ca. Correspondingly, in myocytes voltage-clamped with pipette PP_2A to minimize channel phosphorylation, increasing [Mg²⁺]_p produced a much larger reduction in I_Ca when channel opening was promoted with BAY K8644. These data suggest that, around its physiological concentration range, cytosolic Mg²⁺ modulates the extent to which channel phosphorylation regulates I_Ca. This modulation does not necessarily involve changes in channel phosphorylation per se, but more generally appears to depend on the kinetics of gating induced by channel phosphorylation.

voltage-gated Ca²⁺ channel; cardiac myocytes; human embryonic kidney cells; protein kinase A; protein phosphatase 2A

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