Calcineurin and beyond: cardiac hypertrophic signaling

JD Molkentin - Circulation research, 2000 - Am Heart Assoc
Circulation research, 2000Am Heart Assoc
In response to increased ventricular wall tension or neurohumoral stimuli, the myocardium
undergoes an adaptive hypertrophy response that temporarily augments pump function.
Although initially beneficial, sustained cardiac hypertrophy can lead to decompensation and
cardiomyopathy. Recent studies have focused on characterizing the molecular mechanisms
that underlie cardiac hypertrophy. An increasing number of signal transduction pathways
have been identified as important regulators of the hypertrophic response, including the low …
Abstract
—In response to increased ventricular wall tension or neurohumoral stimuli, the myocardium undergoes an adaptive hypertrophy response that temporarily augments pump function. Although initially beneficial, sustained cardiac hypertrophy can lead to decompensation and cardiomyopathy. Recent studies have focused on characterizing the molecular mechanisms that underlie cardiac hypertrophy. An increasing number of signal transduction pathways have been identified as important regulators of the hypertrophic response, including the low–molecular weight GTPases (Ras, RhoA, and Rac), mitogen-activated protein kinases, protein kinase C, and calcineurin. This review will discuss an emerging body of evidence that implicates the calcium-calmodulin–activated protein phosphatase calcineurin as a physiological regulator of the cardiac hypertrophic response. Although the sufficiency of calcineurin to promote cardiomyocyte hypertrophy in vivo and in vitro is established, its overall necessity as a hypertrophic mediator is currently an area of ongoing debate. The use of the calcineurin-inhibitory agents cyclosporine A and FK506 have suggested a necessary role for calcineurin in many, but not all, animal models of hypertrophy or cardiomyopathy. The evidence implicating a role for calcineurin signaling in the heart will be weighed against a growing body of literature suggesting necessary roles for a diverse array of intracellular signaling pathways, highlighting the multifactorial nature of the hypertrophic program.
Am Heart Assoc