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In the heart compartmentalisation of cAMP/protein kinase A (PKA) signalling is necessary to achieve a specific functional outcome in response to different hormonal stimuli. Chronic exposure to catecholamines is known to be detrimental to the heart and disrupted compartmentalisation of cAMP signalling has been associated to heart disease. However, in most cases it remains unclear whether altered local cAMP signalling is an adaptive response, a consequence of the disease or whether it contributes to the pathogenetic process. We have previously demonstrated that isoforms of PKA expressed in cardiac myocytes, PKA-I and PKA-II, localise to different subcellular compartments and are selectively activated by spatially confined pools of cAMP, resulting in phosphorylation of distinct downstream targets. Here we investigate cAMP signalling in an in vitro model of hypertrophy in primary adult rat ventricular myocytes. By using a real time imaging approach and targeted reporters we find that that sustained exposure to catecholamines can directly affect cAMP/PKA compartmentalisation. This appears to involve a complex mechanism including both changes in the subcellular localisation of individual phosphodiesterase (PDE) isoforms as well as the relocalisation of PKA isoforms. As a result, the preferential coupling of PKA subsets with different PDEs is altered resulting in a significant difference in the level of cAMP the kinase is exposed to, with potential impact on phosphorylation of downstream targets.

Original publication

DOI

10.1016/j.cellsig.2015.10.003

Type

Journal article

Journal

Cell Signal

Publication Date

07/2016

Volume

28

Pages

725 - 732

Keywords

CAMP, Cardiac hypertrophy, Phosphodiesterases, Protein kinase a, Aging, Animals, Binding Sites, Cardiomegaly, Catecholamines, Cell Compartmentation, Cyclic AMP, Cyclic AMP-Dependent Protein Kinases, Cyclic Nucleotide Phosphodiesterases, Type 2, Cyclic Nucleotide Phosphodiesterases, Type 4, Guanine Nucleotide Exchange Factors, Heart Ventricles, Male, Myocytes, Cardiac, Norepinephrine, Rats, Wistar, Signal Transduction