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Cardiac Myosin Binding Protein-C: Structure, Function, and Regulation

$2,054,880P01FY2012HLNIH

University Of Vermont & St Agric College, Burlington VT

Investigators

Linked publications & trials

Abstract

Mutations in cardiac myosin binding protein-C (cMyBP-C) lead to sudden death in young individuals with Familial Hypertrophic Cardiomyopathy. Despite Its clinical importance and its association with the actomyosin molecular motor of the heart, a significant gap still remains in understanding how cMyBP-C modulates cardiac power production. In addition, cMyBP-C is phosphorylated following p-adrenergic stimulation, suggesting that cMyBP-C Itself may be regulated in a phosphorylation-dependent manner. This Program Project (3 projects and 3 cores) will provide a comprehensive molecular understanding of cMyBP-C function, its regulation by phosphorylation, and its impact on cardiac contractility. Using state-ofthe- art techniques, we will characterize cMyBP-C's structure and function through studies ranging from the mechanics of the whole heart down to interactions between a single cMyBP-C molecule and the actomyosin molecular motor. Project #1 will use high resolution 3-dimensional electron microscopic reconstruction to characterize the structure of cMyBP-C and its sarcomeric organization, providing insight to its functional capacity. Project #2 will use the laser trap to assess cMyBP-C's ability to modulate actomyosin power production at the single molecule level, while Project #3 will use transgenic mouse models to define the role of cMyBP-C's putative actin-binding and its phosphorylation on cardiac function under various physiological conditions. The Ventricular and Cardiac Fiber Characterization and Integration Core (Core B) will gather the ventricular performance and fiber mechanical data to bridge the physiological gap between the single molecule and whole animal studies. In addition, the Core will provide a modeling platform to integrate the data from all physiological levels into a mechanistic model of cMyBP-C functionality. The Mouse and cMyBP-C Protein Production Core (Core C) will generate mice with mutant cMyBP-C and in vitro expression of mutant cMyBP-C protein at its actin-binding and phosphorylation domains. These hearts and protein will be studied at all anatomical levels by the various projects. The Program Project's long term goals are to: 1) define cMyBP-C's molecular structure and sarcomeric organization; 2) determine how cMyBP-C modulates cardiac function in a phosphorylation-dependent manner; 3) define why alterations in cMyBP-C phosphorylation are associated with heart failure in humans.

View original record on NIH RePORTER →