Muscle cells respond to mechanical stretch stimuli by triggering downstream signals for myocyte growth and survival. The molecular components of the muscle stretch sensor are unknown, and their role in muscle disease is unclear. Here, we present biophysical/biochemical studies in muscle LIM protein (MLP) deficient cardiac muscle that support a selective role for this Z disc protein in mechanical stretch sensing. MLP interacts with and colocalizes with telethonin (T-cap), a titin interacting protein. Further, a human MLP mutation (W4R) associated with dilated cardiomyopathy (DCM) results in a marked defect in T-cap interaction/localization. We propose that a Z disc MLP/T-cap complex is a key component of the in vivo cardiomyocyte stretch sensor machinery, and that defects in the complex can lead to human DCM and associated heart failure.
Background
Heart failure is associated with impaired myocardial metabolism with a shift from fatty acids to glucose utilization for ATP generation. We hypothesized that cardiac accumulation of toxic lipid intermediates inhibits insulin signaling in advanced heart failure and that mechanical unloading of the failing myocardium corrects impaired cardiac metabolism.
Methods and Results
We analyzed myocardium and serum of 61 patients with heart failure (BMI 26.5±5.1 kg/m2, age 51±12 years) obtained during left ventricular assist device (LVAD) implantation and at explantation (mean duration 185±156 days) and from 9 controls. Systemic insulin resistance in heart failure was accompanied by decreased myocardial triglyceride and overall fatty acid content but increased toxic lipid intermediates, diacylglycerol and ceramide. Increased membrane localization of protein kinase C isoforms, inhibitors of insulin signaling, and decreased activity of insulin signaling molecules Akt and FOXO, were detectable in heart failure compared to controls. LVAD implantation improved whole body insulin resistance (HOMA-IR: 4.5±0.6 to 3.2±0.5; p<0.05) and decreased myocardial levels of diacylglycerol and ceramide while triglyceride and fatty acid content remained unchanged. Improved activation of the insulin/PI3kinase/Akt signaling cascade after LVAD implantation was confirmed by increased phosphorylation of Akt and FOXO, which was accompanied by decreased membrane localization of protein kinase C isoforms after LVAD implantation.
Conclusions
Mechanical unloading after LVAD implantation corrects systemic and local metabolic derangements in advanced heart failure leading to reduced myocardial levels of toxic lipid intermediates and improved cardiac insulin signaling.
These data provide evidence that heterozygous cMyBP-C null mice represent the first model with a key feature of human FHC that is asymmetric septal hypertrophy.
This is the first report on mutations in the laminin, integrin, and ILK system in human cardiomyopathy, which has consequences for endothelial cells as well as for cardiomyocytes, thus providing a new genetic basis for dilated cardiomyopathy in humans.
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