Dilated Cardiomyopathy and Sudden Death Resulting From Constitutive Activation of Protein Kinase A

β-Adrenergic receptor (βAR) signaling, which elevates intracellular cAMP and enhances cardiac contractility, is severely impaired in the failing heart. Protein kinase A (PKA) is activated by cAMP, but the long-term physiological effect of PKA activation on cardiac function is unclear. To investigate...

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Veröffentlicht in:	Circulation research 2001-11, Vol.89 (11), p.997-1004
Hauptverfasser:	Antos, Christopher L, Frey, Norbert, Marx, Steven O, Reiken, Steven, Gaburjakova, Marta, Richardson, James A, Marks, Andrew R, Olson, Eric N
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Calcium-Binding Proteins - metabolism Cardiomyopathy, Dilated - enzymology Cardiomyopathy, Dilated - etiology Cardiomyopathy, Dilated - metabolism Cyclic AMP-Dependent Protein Kinases - genetics Cyclic AMP-Dependent Protein Kinases - metabolism Cyclic AMP-Dependent Protein Kinases - physiology Death, Sudden, Cardiac - etiology Enzyme Activation Humans Mice Mice, Transgenic Myocardial Contraction Myosin Heavy Chains - genetics Phosphorylation Ryanodine Receptor Calcium Release Channel - metabolism
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container_end_page	1004
container_issue	11
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container_title	Circulation research
container_volume	89
creator	Antos, Christopher L Frey, Norbert Marx, Steven O Reiken, Steven Gaburjakova, Marta Richardson, James A Marks, Andrew R Olson, Eric N
description	β-Adrenergic receptor (βAR) signaling, which elevates intracellular cAMP and enhances cardiac contractility, is severely impaired in the failing heart. Protein kinase A (PKA) is activated by cAMP, but the long-term physiological effect of PKA activation on cardiac function is unclear. To investigate the consequences of chronic cardiac PKA activation in the absence of upstream events associated with βAR signaling, we generated transgenic mice that expressed the catalytic subunit of PKA in the heart. These mice developed dilated cardiomyopathy with reduced cardiac contractility, arrhythmias, and susceptibility to sudden death. As seen in human heart failure, these abnormalities correlated with PKA-mediated hyperphosphorylation of the cardiac ryanodine receptor/Ca-release channel, which enhances Ca release from the sarcoplasmic reticulum, and phospholamban, which regulates the sarcoplasmic reticulum Ca-ATPase. These findings demonstrate a specific role for PKA in the pathogenesis of heart failure, independent of more proximal events in βAR signaling, and support the notion that PKA activity is involved in the adverse effects of chronic βAR signaling.
doi_str_mv	10.1161/hh2301.100003
format	Article
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Protein kinase A (PKA) is activated by cAMP, but the long-term physiological effect of PKA activation on cardiac function is unclear. To investigate the consequences of chronic cardiac PKA activation in the absence of upstream events associated with βAR signaling, we generated transgenic mice that expressed the catalytic subunit of PKA in the heart. These mice developed dilated cardiomyopathy with reduced cardiac contractility, arrhythmias, and susceptibility to sudden death. As seen in human heart failure, these abnormalities correlated with PKA-mediated hyperphosphorylation of the cardiac ryanodine receptor/Ca-release channel, which enhances Ca release from the sarcoplasmic reticulum, and phospholamban, which regulates the sarcoplasmic reticulum Ca-ATPase. 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Protein kinase A (PKA) is activated by cAMP, but the long-term physiological effect of PKA activation on cardiac function is unclear. To investigate the consequences of chronic cardiac PKA activation in the absence of upstream events associated with βAR signaling, we generated transgenic mice that expressed the catalytic subunit of PKA in the heart. These mice developed dilated cardiomyopathy with reduced cardiac contractility, arrhythmias, and susceptibility to sudden death. As seen in human heart failure, these abnormalities correlated with PKA-mediated hyperphosphorylation of the cardiac ryanodine receptor/Ca-release channel, which enhances Ca release from the sarcoplasmic reticulum, and phospholamban, which regulates the sarcoplasmic reticulum Ca-ATPase. 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Protein kinase A (PKA) is activated by cAMP, but the long-term physiological effect of PKA activation on cardiac function is unclear. To investigate the consequences of chronic cardiac PKA activation in the absence of upstream events associated with βAR signaling, we generated transgenic mice that expressed the catalytic subunit of PKA in the heart. These mice developed dilated cardiomyopathy with reduced cardiac contractility, arrhythmias, and susceptibility to sudden death. As seen in human heart failure, these abnormalities correlated with PKA-mediated hyperphosphorylation of the cardiac ryanodine receptor/Ca-release channel, which enhances Ca release from the sarcoplasmic reticulum, and phospholamban, which regulates the sarcoplasmic reticulum Ca-ATPase. 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subjects	Animals Calcium-Binding Proteins - metabolism Cardiomyopathy, Dilated - enzymology Cardiomyopathy, Dilated - etiology Cardiomyopathy, Dilated - metabolism Cyclic AMP-Dependent Protein Kinases - genetics Cyclic AMP-Dependent Protein Kinases - metabolism Cyclic AMP-Dependent Protein Kinases - physiology Death, Sudden, Cardiac - etiology Enzyme Activation Humans Mice Mice, Transgenic Myocardial Contraction Myosin Heavy Chains - genetics Phosphorylation Ryanodine Receptor Calcium Release Channel - metabolism
title	Dilated Cardiomyopathy and Sudden Death Resulting From Constitutive Activation of Protein Kinase A
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