[HTML][HTML] Cardiac cAMP: production, hydrolysis, modulation and detection
C Boularan, C Gales - Frontiers in pharmacology, 2015 - frontiersin.org
C Boularan, C Gales
Frontiers in pharmacology, 2015•frontiersin.orgCyclic adenosine 3′, 5′-monophosphate (cAMP) modulates a broad range of biological
processes including the regulation of cardiac myocyte contractile function where it
constitutes the main second messenger for β-adrenergic receptors' signaling to fulfill positive
chronotropic, inotropic and lusitropic effects. A growing number of studies pinpoint the role of
spatial organization of the cAMP signaling as an essential mechanism to regulate cAMP
outcomes in cardiac physiology. Here, we will briefly discuss the complexity of cAMP …
processes including the regulation of cardiac myocyte contractile function where it
constitutes the main second messenger for β-adrenergic receptors' signaling to fulfill positive
chronotropic, inotropic and lusitropic effects. A growing number of studies pinpoint the role of
spatial organization of the cAMP signaling as an essential mechanism to regulate cAMP
outcomes in cardiac physiology. Here, we will briefly discuss the complexity of cAMP …
Cyclic adenosine 3′,5′-monophosphate (cAMP) modulates a broad range of biological processes including the regulation of cardiac myocyte contractile function where it constitutes the main second messenger for β-adrenergic receptors' signaling to fulfill positive chronotropic, inotropic and lusitropic effects. A growing number of studies pinpoint the role of spatial organization of the cAMP signaling as an essential mechanism to regulate cAMP outcomes in cardiac physiology. Here, we will briefly discuss the complexity of cAMP synthesis and degradation in the cardiac context, describe the way to detect it and review the main pharmacological arsenal to modulate its availability.
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