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

doi:10.1172/JCI176943

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

Tel Aviv University

Research output: Contribution to journal › Article › peer-review

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 (Ca_V) acting through the Ca_vβ 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 Ca_Vβ, even in the absence of Ca_Vα, 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 Ca_Vβ, is sufficient for sympathetic upregulation of Ca²⁺ currents.

Original language	English
Article number	e176943
Number of pages	17
Journal	Journal of Clinical Investigation
Volume	134
Issue number	5
DOIs	https://doi.org/10.1172/JCI176943
State	Published - 1 Mar 2024

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General Medicine

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10.1172/JCI176943

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Papa, A., del Rivero Morfin, P. J., Chen, B. X., Yang, L., Katchman, A. N., Zakharov, S. I., Liu, G., Bohnen, M. S., Zheng, V., Katz, M., Subramaniam, S., Hirsch, J. A., Weiss, S., Dascal, N., Karlin, A., Pitt, G. S., Colecraft, H. M., Ben-Johny, M., & Marx, S. O. (2024). A membrane-associated phosphoswitch in Rad controls adrenergic regulation of cardiac calcium channels. Journal of Clinical Investigation, 134(5), Article e176943. https://doi.org/10.1172/JCI176943

@article{bbe9be8ffcf748a0b3d2178bb1ab1e0f,

title = "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{\textquoteright}s polybasic, hydrophobic C-terminal domain (CTD). Phosphorylation of Ser25 and Ser38 in Rad{\textquoteright}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{\textquoteright}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{\textquoteright}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.",

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

note = "Publisher Copyright: {\textcopyright} 2024, Papa et al.",

year = "2024",

month = mar,

day = "1",

doi = "10.1172/JCI176943",

language = "الإنجليزيّة",

volume = "134",

journal = "Journal of Clinical Investigation",

issn = "0021-9738",

publisher = "American Society for Clinical Investigation",

number = "5",

}

Papa, A, del Rivero Morfin, PJ, Chen, BX, Yang, L, Katchman, AN, Zakharov, SI, Liu, G, Bohnen, MS, Zheng, V, Katz, M, Subramaniam, S, Hirsch, JA , Weiss, S, Dascal, N, Karlin, A, Pitt, GS, Colecraft, HM, Ben-Johny, M & Marx, SO 2024, 'A membrane-associated phosphoswitch in Rad controls adrenergic regulation of cardiac calcium channels', Journal of Clinical Investigation, vol. 134, no. 5, e176943. https://doi.org/10.1172/JCI176943

TY - JOUR

T1 - A membrane-associated phosphoswitch in Rad controls adrenergic regulation of cardiac calcium channels

AU - Papa, Arianne

AU - del Rivero Morfin, Pedro J.

AU - Chen, Bi Xing

AU - Yang, Lin

AU - Katchman, Alexander N.

AU - Zakharov, Sergey I.

AU - Liu, Guoxia

AU - Bohnen, Michael S.

AU - Zheng, Vivian

AU - Katz, Moshe

AU - Subramaniam, Suraj

AU - Hirsch, Joel A.

AU - Weiss, Sharon

AU - Dascal, Nathan

AU - Karlin, Arthur

AU - Pitt, Geoffrey S.

AU - Colecraft, Henry M.

AU - Ben-Johny, Manu

AU - Marx, Steven O.

PY - 2024/3/1

Y1 - 2024/3/1

N2 - 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.

AB - 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.

UR - http://www.scopus.com/inward/record.url?scp=85186744165&partnerID=8YFLogxK

U2 - 10.1172/JCI176943

DO - 10.1172/JCI176943

M3 - مقالة

C2 - 38227371

SN - 0021-9738

VL - 134

JO - Journal of Clinical Investigation

JF - Journal of Clinical Investigation

IS - 5

M1 - e176943

ER -

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

Abstract

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