Background
Cardiac hypertrophy is a common response to circulatory or neurohumoral stressors as a mechanism to augment contractility. When the heart is under sustained stress, the hypertrophic response can evolve into decompensated heart failure, although the mechanism(s) underlying this transition remain largely unknown. Because phosphorylation of cardiac myosin light chain 2 (MLC2v), bound to myosin at the head-rod junction, facilitates actin-myosin interactions and enhances contractility, we hypothesized that phosphorylation of MLC2v plays a role in adaptation of the heart to stress. We previously identified an enzyme that predominantly phosphorylates MLC2v in cardiomyocytes, cardiac-MLCK (cMLCK); yet the role(s) played by cMLCK in regulating cardiac function in health and disease remain to be determined.
Methods and Results
We found that pressure-overload induced by transaortic constriction in wildtype mice reduced phosphorylated-MLC2v levels by ~40% and cMLCK levels by ~85%. To examine how a reduction in cMLCK and the corresponding reduction in pMLC2v affect function, we generated Mylk3 gene-targeted mice as well as transgenic mice overexpressing cMLCK specifically in cardiomyocytes. Pressure-overload led to severe heart failure in cMLCK knockout mice, but not in mice with cMLCK overexpression in which cMLCK protein synthesis exceeded degradation. The reduction in cMLCK protein during pressure-overload was attenuated by inhibition of ubiquitin-proteasome protein degradation systems.
Conclusions
Our results suggest the novel idea that accelerated cMLCK-protein turnover by the ubiquitin-proteasome system underlie the transition from compensated hypertrophy to decompensated heart failure due to reduced phosphorylation of MLC2v.
Nkx2-5 is necessary for survival after the mid-embryonic stage for cardiac function and formation by regulating the expression of its downstream target genes.
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