Add to ORKGmed.uni-heidelberg.de CaMKII has been shown to be activated during different cardiac pathological processes, and CaMKII-dependent mechanisms contribute to pathological cardiac remodeling, cardiac arrhythmias, and contractile dysfunction during heart failure. Activation of CaMKII during cardiac stress results in a broad number of biological effects such as, on the one hand, acute effects due to phosphorylation of distinct cellular proteins as ion channels and calcium handling proteins and, on the other hand, integrative mechanisms by changing gene expression. This review focuses on transcriptional and epigenetic effects of CaMKII activation during chronic cardiac remodeling. Multiple mechanisms have been described how CaMKII mediates changes...
Ca2+/Calmodulin-dependent protein kinase II (CaMKII) is a key regulator of cardiac function and dysf...
Heart failure, the heart's inability to sufficiently deliver blood to meet the body's demand, is a l...
In the cardiomyocyte, CaMKII has been identified as a nodal influencer of excitation–contraction and...
Heart failure is associated with the reactivation of a fetal cardiac gene programme that has become ...
CaMKII!, a calcium/calmodulin-dependent protein kinase, plays pivotal roles in the development of he...
The calcium-calmodulin dependent protein kinases (CaMKs) are a broadly expressed family of calcium-s...
Calcium/calmodulin-dependent protein kinase II (CaMKII) plays a central role in pathological cardiac...
Almost four decades since its initial discovery in brain (Schulman and Greengard, 1978), the multifu...
Calcium dynamics is central in cardiac physiology, as the key event leading to the excitation-contra...
Calcium/calmodulin-dependent protein kinase II (CaMKII) plays a central role in pathological cardiac...
Calcium dynamics is central in cardiac physiology, as the key event leading to the excitation-contra...
Almost four decades since its initial discovery in brain (Schulman and Greengard, 1978), the multifu...
Calcium dynamics is central in cardiac physiology, as the key event leading to the excitation-contra...
Ca2+ dysregulation underlies many forms of cardiac stress and contributes significantly to arrhythmi...
Sympathetic activation of beta-adrenoreceptors (beta-AR) represents a hallmark in the development of...
Ca2+/Calmodulin-dependent protein kinase II (CaMKII) is a key regulator of cardiac function and dysf...
Heart failure, the heart's inability to sufficiently deliver blood to meet the body's demand, is a l...
In the cardiomyocyte, CaMKII has been identified as a nodal influencer of excitation–contraction and...
Heart failure is associated with the reactivation of a fetal cardiac gene programme that has become ...
CaMKII!, a calcium/calmodulin-dependent protein kinase, plays pivotal roles in the development of he...
The calcium-calmodulin dependent protein kinases (CaMKs) are a broadly expressed family of calcium-s...
Calcium/calmodulin-dependent protein kinase II (CaMKII) plays a central role in pathological cardiac...
Almost four decades since its initial discovery in brain (Schulman and Greengard, 1978), the multifu...
Calcium dynamics is central in cardiac physiology, as the key event leading to the excitation-contra...
Calcium/calmodulin-dependent protein kinase II (CaMKII) plays a central role in pathological cardiac...
Calcium dynamics is central in cardiac physiology, as the key event leading to the excitation-contra...
Almost four decades since its initial discovery in brain (Schulman and Greengard, 1978), the multifu...
Calcium dynamics is central in cardiac physiology, as the key event leading to the excitation-contra...
Ca2+ dysregulation underlies many forms of cardiac stress and contributes significantly to arrhythmi...
Sympathetic activation of beta-adrenoreceptors (beta-AR) represents a hallmark in the development of...
Ca2+/Calmodulin-dependent protein kinase II (CaMKII) is a key regulator of cardiac function and dysf...
Heart failure, the heart's inability to sufficiently deliver blood to meet the body's demand, is a l...
In the cardiomyocyte, CaMKII has been identified as a nodal influencer of excitation–contraction and...