Role of chronic ryanodine receptor phosphorylation in heart failure and β-adrenergic receptor blockade in mice
Jian Shan, … , Bi-Xing Chen, Andrew R. Marks
Jian Shan, … , Bi-Xing Chen, Andrew R. Marks
Published November 22, 2010
Citation Information: J Clin Invest. 2010;120(12):4375-4387. https://doi.org/10.1172/JCI37649.
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Role of chronic ryanodine receptor phosphorylation in heart failure and β-adrenergic receptor blockade in mice

Abstract

Increased sarcoplasmic reticulum (SR) Ca2+ leak via the cardiac ryanodine receptor/calcium release channel (RyR2) is thought to play a role in heart failure (HF) progression. Inhibition of this leak is an emerging therapeutic strategy. To explore the role of chronic PKA phosphorylation of RyR2 in HF pathogenesis and treatment, we generated a knockin mouse with aspartic acid replacing serine 2808 (mice are referred to herein as RyR2-S2808D+/+ mice). This mutation mimics constitutive PKA hyperphosphorylation of RyR2, which causes depletion of the stabilizing subunit FKBP12.6 (also known as calstabin2), resulting in leaky RyR2. RyR2-S2808D+/+ mice developed age-dependent cardiomyopathy, elevated RyR2 oxidation and nitrosylation, reduced SR Ca2+ store content, and increased diastolic SR Ca2+ leak. After myocardial infarction, RyR2-S2808D+/+ mice exhibited increased mortality compared with WT littermates. Treatment with S107, a 1,4-benzothiazepine derivative that stabilizes RyR2-calstabin2 interactions, inhibited the RyR2-mediated diastolic SR Ca2+ leak and reduced HF progression in WT and RyR2-S2808D+/+ mice. In contrast, β-adrenergic receptor blockers improved cardiac function in WT but not in RyR2-S2808D+/+ mice.Thus, chronic PKA hyperphosphorylation of RyR2 results in a diastolic leak that causes cardiac dysfunction. Reversing PKA hyperphosphorylation of RyR2 is an important mechanism underlying the therapeutic action of β-blocker therapy in HF.

Authors

Jian Shan, Matthew J. Betzenhauser, Alexander Kushnir, Steven Reiken, Albano C. Meli, Anetta Wronska, Miroslav Dura, Bi-Xing Chen, Andrew R. Marks

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Figure 2

RyR2 channel complex remodeling in RyR2-S2808D mice.

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RyR2 channel complex remodeling in RyR2-S2808D mice. (A) Progressive oxi...
(A) Progressive oxidation, Cys-nitrosylation (Cys NO) of cardiac RyR2, and depletion of PDE4D3, calstabin2, PP2A, and PP1 from the cardiac RyR2 complex in the RyR2-S2808D mice. (B) Levels of proteins in the RyR2 complex and levels of oxidation and Cys-nitrosylation were normalized to the total amount of RyR2 (AU). *P < 0.05 versus WT at 1.5 months. (C) Oxidation and Cys-nitrosylation of RyR2 in HF samples. RyR2 immunoprecipitations were performed on hearts from mice with MI and sham-treated mice or on samples from HF and non-HF human heart tissue. (D) Levels of oxidation and Cys-nitrosylation were normalized to the total amount of RyR2 (AU). *P < 0.05 versus normal samples.