A membrane-associated phosphoswitch in Rad controls adrenergic regulation of cardiac calcium channels
Arianne Papa, Pedro J. del Rivero Morfin, Bi-Xing Chen, Lin Yang, Alexander N. Katchman, Sergey I. Zakharov, Guoxia Liu, Michael S. Bohnen, Vivian Zheng, Moshe Katz, Suraj Subramaniam, Joel A. Hirsch, Sharon Weiss, Nathan Dascal, Arthur Karlin, Geoffrey S. Pitt, Henry M. Colecraft, Manu Ben-Johny, Steven O. Marx
Arianne Papa, Pedro J. del Rivero Morfin, Bi-Xing Chen, Lin Yang, Alexander N. Katchman, Sergey I. Zakharov, Guoxia Liu, Michael S. Bohnen, Vivian Zheng, Moshe Katz, Suraj Subramaniam, Joel A. Hirsch, Sharon Weiss, Nathan Dascal, Arthur Karlin, Geoffrey S. Pitt, Henry M. Colecraft, Manu Ben-Johny, Steven O. Marx
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Research Article Cardiology

A membrane-associated phosphoswitch in Rad controls adrenergic regulation of cardiac calcium channels

Abstract

The ability to fight or flee from a threat relies on an acute adrenergic surge that augments cardiac output, which is dependent on increased cardiac contractility and heart rate. This cardiac response depends on β-adrenergic–initiated reversal of the small RGK G protein Rad–mediated inhibition of voltage-gated calcium channels (CaV) acting through the Cavβ subunit. Here, we investigate how Rad couples phosphorylation to augmented Ca2+ influx and increased cardiac contraction. We show that reversal required phosphorylation of Ser272 and Ser300 within Rad’s polybasic, hydrophobic C-terminal domain (CTD). Phosphorylation of Ser25 and Ser38 in Rad’s N-terminal domain (NTD) alone was ineffective. Phosphorylation of Ser272 and Ser300 or the addition of 4 Asp residues to the CTD reduced Rad’s association with the negatively charged, cytoplasmic plasmalemmal surface and with CaVβ, even in the absence of CaVα, measured here by FRET. Addition of a posttranslationally prenylated CAAX motif to Rad’s C-terminus, which constitutively tethers Rad to the membrane, prevented the physiological and biochemical effects of both phosphorylation and Asp substitution. Thus, dissociation of Rad from the sarcolemma, and consequently from CaVβ, is sufficient for sympathetic upregulation of Ca2+ currents.

Authors

Arianne Papa, Pedro J. del Rivero Morfin, Bi-Xing Chen, Lin Yang, Alexander N. Katchman, Sergey I. Zakharov, Guoxia Liu, Michael S. Bohnen, Vivian Zheng, Moshe Katz, Suraj Subramaniam, Joel A. Hirsch, Sharon Weiss, Nathan Dascal, Arthur Karlin, Geoffrey S. Pitt, Henry M. Colecraft, Manu Ben-Johny, Steven O. Marx

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Figure 5

Effects on Venus-Rad binding to the membrane of phosphorylation and insertion of negatively charged Asp residues.

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Effects on Venus-Rad binding to the membrane of phosphorylation and inse...
(A) FRET biosensor for membrane binding. Cerulean and Venus fluorescent proteins were conjugated with CAAX. (B) FRET efficiency (ED) is plotted against SA,direct, the fluorescence intensity of the acceptor (Venus), directly excited. Lines are linear slope using least-squares fit. (C) Slope of ED between Cer-CAAX and Ven-CAAX or Ven alone. Mean ± SEM. ****P < 0.0001 by 2-tailed, unpaired t test. n = 7. (D) Shown are Cer-CAAX and WT Rad or mutant Rad conjugated to the Venus fluorescent protein. High FRET signal is detected when both proteins are colocalized at the membrane. (E) ED is plotted against SA,direct of Ven-WT Rad, either untreated or treated with 10 μM forskolin plus 100 nM calyculin A. (F) As in E, with C-2SA Rad. (G) As in E, with C-6SD Rad. (H) FRET binding studies of Ven-conjugated proteins to membrane. Mean ± SEM. Statistics for comparison to control column (WT without PKA, FSK or Cal). P < 0.0001 by 1-way ANOVA; *P < 0.05, ***P < 0.001, ****P < 0.0001 by Dunnett’s test. n = 20, 5, 9, 6, 3, 3, 3, 3, 11, 4, 3, 5, 3, 3, and 4 from left to right. (I) Fluorescence of GFP-tagged WT and mutant Rad expressed in HEK293 cells. Nuclear staining with DAPI. Scale bars: 32 μm. (J) Ratio of membrane and cytosolic fluorescence intensities for WT and mutant Rad protein. Mean ± SEM. P < 0.0001 by 1-way ANOVA; ***P < 0.001, ****P < 0.0001 by Šidák’s test compared with WT Rad. n = 223, 84, 103, 135, and 143 cells from left to right. (K) Relationship between fluorescence image analysis and FRET analysis. Line was fit by linear regression. (L) Correlation between Rad membrane association and β-Rad binding without and with 10 μM forskolin and 100 nM calyculin for WT Rad and Rad mutants 4SA, N-2SA, C-2SA, C-2SD, C-4SD, and C-6SD.