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Genetically Encoded Biosensors Reveal PKA Hyperphosphorylation on the Myofilaments in Rabbit Heart Failure.


ABSTRACT: In heart failure, myofilament proteins display abnormal phosphorylation, which contributes to contractile dysfunction. The mechanisms underlying the dysregulation of protein phosphorylation on myofilaments is not clear.This study aims to understand the mechanisms underlying altered phosphorylation of myofilament proteins in heart failure.We generate a novel genetically encoded protein kinase A (PKA) biosensor anchored onto the myofilaments in rabbit cardiac myocytes to examine PKA activity at the myofilaments in responses to adrenergic stimulation. We show that PKA activity is shifted from the sarcolemma to the myofilaments in hypertrophic failing rabbit myocytes. In particular, the increased PKA activity on the myofilaments is because of an enhanced ?2 adrenergic receptor signal selectively directed to the myofilaments together with a reduced phosphodiesterase activity associated with the myofibrils. Mechanistically, the enhanced PKA activity on the myofilaments is associated with downregulation of caveolin-3 in the hypertrophic failing rabbit myocytes. Reintroduction of caveolin-3 in the failing myocytes is able to normalize the distribution of ?2 adrenergic receptor signal by preventing PKA signal access to the myofilaments and to restore contractile response to adrenergic stimulation.In hypertrophic rabbit myocytes, selectively enhanced ?2 adrenergic receptor signaling toward the myofilaments contributes to elevated PKA activity and PKA phosphorylation of myofilament proteins. Reintroduction of caveolin-3 is able to confine ?2 adrenergic receptor signaling and restore myocyte contractility in response to ? adrenergic stimulation.

SUBMITTER: Barbagallo F 

PROVIDER: S-EPMC5307331 | biostudies-literature | 2016 Sep

REPOSITORIES: biostudies-literature

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<h4>Rationale</h4>In heart failure, myofilament proteins display abnormal phosphorylation, which contributes to contractile dysfunction. The mechanisms underlying the dysregulation of protein phosphorylation on myofilaments is not clear.<h4>Objective</h4>This study aims to understand the mechanisms underlying altered phosphorylation of myofilament proteins in heart failure.<h4>Methods and results</h4>We generate a novel genetically encoded protein kinase A (PKA) biosensor anchored onto the myofi  ...[more]

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