Add to ORKGbeta-Adrenergic signalling mediates the positive inotropic effect of catecholamines on cardiomyocytes, mainly through cAMP generation and subsequent activation of PKA (protein kinase A). Given the large diversity of PKA targets within cardiac cells, a precisely regulated and confined activity of such signalling pathways is essential for the specificity of response. PDEs (phosphodiesterases) constitute the only cAMP-degrading mechanism and are expressed in the cardiomyocyte in at least 5 family variants. Each PDE family is characterized by unique functional properties and contributes to a cAMP-degrading system enabling the modulation of PKA activity in a stimulus-dependent fashion
cAMP is the archetypal and ubiquitous second messenger utilised for the fine control of many cardiov...
cAMP is the archetypal and ubiquitous second messenger utilised for the fine control of many cardiov...
cAMP is the archetypal and ubiquitous second messenger utilised for the fine control of many cardiov...
beta-Adrenergic signalling mediates the positive inotropic effect of catecholamines on cardiomyocyte...
beta-Adrenergic signalling mediates the positive inotropic effect of catecholamines on cardiomyocyte...
beta-Adrenergic signalling mediates the positive inotropic effect of catecholamines on cardiomyocyte...
beta-Adrenergic signalling mediates the positive inotropic effect of catecholamines on cardiomyocyte...
β-Adrenergic signalling mediates the positive inotropic effect of catecholamines on cardiomyocytes, ...
A key feature of the cAMP/cAMP-dependent protein kinase (PKA) transduction system is the compartment...
beta-Adrenergic signaling via cAMP generation and PKA activation mediates the positive inotropic eff...
beta-Adrenergic signaling via cAMP generation and PKA activation mediates the positive inotropic eff...
beta-Adrenergic signaling via cAMP generation and PKA activation mediates the positive inotropic eff...
Heart function is tightly regulated by the sympathetic-driven β-adrenergic system via alterations in...
Abstract—Cyclic AMP regulates a vast number of distinct events in all cells. Early studies establish...
AIMS: Compartmentalisation of cAMP and PKA activity in cardiac muscle cells plays a key role in ma...
cAMP is the archetypal and ubiquitous second messenger utilised for the fine control of many cardiov...
cAMP is the archetypal and ubiquitous second messenger utilised for the fine control of many cardiov...
cAMP is the archetypal and ubiquitous second messenger utilised for the fine control of many cardiov...
beta-Adrenergic signalling mediates the positive inotropic effect of catecholamines on cardiomyocyte...
beta-Adrenergic signalling mediates the positive inotropic effect of catecholamines on cardiomyocyte...
beta-Adrenergic signalling mediates the positive inotropic effect of catecholamines on cardiomyocyte...
beta-Adrenergic signalling mediates the positive inotropic effect of catecholamines on cardiomyocyte...
β-Adrenergic signalling mediates the positive inotropic effect of catecholamines on cardiomyocytes, ...
A key feature of the cAMP/cAMP-dependent protein kinase (PKA) transduction system is the compartment...
beta-Adrenergic signaling via cAMP generation and PKA activation mediates the positive inotropic eff...
beta-Adrenergic signaling via cAMP generation and PKA activation mediates the positive inotropic eff...
beta-Adrenergic signaling via cAMP generation and PKA activation mediates the positive inotropic eff...
Heart function is tightly regulated by the sympathetic-driven β-adrenergic system via alterations in...
Abstract—Cyclic AMP regulates a vast number of distinct events in all cells. Early studies establish...
AIMS: Compartmentalisation of cAMP and PKA activity in cardiac muscle cells plays a key role in ma...
cAMP is the archetypal and ubiquitous second messenger utilised for the fine control of many cardiov...
cAMP is the archetypal and ubiquitous second messenger utilised for the fine control of many cardiov...
cAMP is the archetypal and ubiquitous second messenger utilised for the fine control of many cardiov...