INTRODUCTION: Chronic activation of β(1)-adrenergic receptor (β(1)-AR) signaling can have deleterious effects on the heart, and animal models overexpressing β(1)-ARs develop a dilated cardiomyopathy and heart failure. In the classic β-AR pathway, receptor occupancy by an agonist results in increased cyclic adenosine monophosphate (cAMP) levels and activation of protein kinase A (PKA). However, the role of PKA-dependent signaling in the development and progression of cardiomyopathies and heart failure is controversial, because β-AR signal transduction is generally desensitized in the failing heart and PKA activity is not increased. METHODS AND RESULTS: Neonatal rat ventricular myocytes were acutely (15 minutes) or chronically (48 hours) treated with isoproterenol, and phosphorylation of protein kinase D (PKD) and histone deacetylase 5 (HDAC5) was measured. Acute β(1)-AR stimulation or expression of constitutively active (CA) PKA reduced α(1)-adrenergic-mediated phosphorylation of HDAC5 and PKD by activation of a phosphatase. Overexpression of CA-PKA also reduced α(1)-adrenergic-mediated increased expression of contractile protein fetal isoforms and promoted repression of adult isoforms, but had no effect on α(1)-adrenergic-mediated cellular hypertrophy. CONCLUSIONS: These data indicate that the PKA-dependent arm of β-AR signaling can be antihypertrophic and presumably beneficial, through dephosphorylation of PKD and HDAC5 and reduction of hypertrophic fetal isoform gene expression.
INTRODUCTION: Chronic activation of β(1)-adrenergic receptor (β(1)-AR) signaling can have deleterious effects on the heart, and animal models overexpressing β(1)-ARs develop a dilated cardiomyopathy and heart failure. In the classic β-AR pathway, receptor occupancy by an agonist results in increased cyclic adenosine monophosphate (cAMP) levels and activation of protein kinase A (PKA). However, the role of PKA-dependent signaling in the development and progression of cardiomyopathies and heart failure is controversial, because β-AR signal transduction is generally desensitized in the failing heart and PKA activity is not increased. METHODS AND RESULTS: Neonatal rat ventricular myocytes were acutely (15 minutes) or chronically (48 hours) treated with isoproterenol, and phosphorylation of protein kinase D (PKD) and histone deacetylase 5 (HDAC5) was measured. Acute β(1)-AR stimulation or expression of constitutively active (CA) PKA reduced α(1)-adrenergic-mediated phosphorylation of HDAC5 and PKD by activation of a phosphatase. Overexpression of CA-PKA also reduced α(1)-adrenergic-mediated increased expression of contractile protein fetal isoforms and promoted repression of adult isoforms, but had no effect on α(1)-adrenergic-mediated cellular hypertrophy. CONCLUSIONS: These data indicate that the PKA-dependent arm of β-AR signaling can be antihypertrophic and presumably beneficial, through dephosphorylation of PKD and HDAC5 and reduction of hypertrophic fetal isoform gene expression.
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