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Convergent regulation of Ca <sub>V</sub> 1.2 channels by direct phosphorylation and by the small GTPase RAD in the cardiac fight-or-flight response

Liam Hovey, Tamer M. Gamal El-Din, William A. Catterall

2022Proceedings of the National Academy of Sciences14 citationsDOIOpen Access PDF

Abstract

The L-type calcium currents conducted by the cardiac Ca V 1.2 calcium channel initiate excitation–contraction coupling and serve as a key regulator of heart rate, rhythm, and force of contraction. Ca V 1.2 is regulated by β-adrenergic/protein kinase A (PKA)-mediated protein phosphorylation, proteolytic processing, and autoinhibition by its carboxyl-terminal domain (CT). The small guanosine triphosphatase (GTPase) RAD (Ras associated with diabetes) has emerged as a potent inhibitor of Ca V 1.2, and accumulating evidence suggests a key role for RAD in mediating β-adrenergic/PKA upregulation of channel activity. However, the relative roles of direct phosphorylation of Ca V 1.2 channels and phosphorylation of RAD in channel regulation remain uncertain. Here, we investigated the hypothesis that these two mechanisms converge to regulate Ca V 1.2 channels. Both RAD and the proteolytically processed distal CT (dCT) strongly reduced Ca V 1.2 activity. PKA phosphorylation of RAD and phosphorylation of Ser-1700 in the proximal CT (pCT) synergistically reversed this inhibition and increased Ca V 1.2 currents. Our findings reveal that the proteolytically processed form of Ca V 1.2 undergoes convergent regulation by direct phosphorylation of the CT and by phosphorylation of RAD. These parallel regulatory pathways provide a flexible mechanism for upregulation of the activity of Ca V 1.2 channels in the fight-or-flight response.

Topics & Concepts

PhosphorylationDownregulation and upregulationGuanosineCell biologyGTPaseProtein kinase ABiologyCalciumKinaseBiophysicsChemistryBiochemistryOrganic chemistryGeneCardiac electrophysiology and arrhythmiasIon channel regulation and functionNeuroscience and Neuropharmacology Research