SUMOylation of cardiac myosin binding protein-C reduces its phosphorylation and results in impaired relaxation following treatment with isoprenaline

Systolic and diastolic functions are coordinated in the heart by myofilament proteins that influence force of contraction and calcium sensitivity. Fine control of these processes is afforded by a variety of post-translation modifications that occur on specific proteins at different times during each heartbeat. Cardiac myosin binding protein-C is a sarcomeric accessory protein whose function is to interact transiently with actin, tropomyosin and myosin. Previously many different types of post-translational modification have been shown to influence the action of myosin binding protein-C and we present the first report that the protein can be modified covalently by the small ubiquitin like modifier protein tag. Analysis by mass spectrometry suggests that there are multiple modification sites on myosin binding protein-C for this tag and single point mutations did not serve to abolish the covalent addition of the small ubiquitin like modifier protein. Functionally, our data from both model human embryonic kidney cells and transfected neonatal cardiac myocytes suggests that the modification reduces phosphorylation of the filament protein on serine 282. In cardiac myocytes, the hypo-phosphorylation coincided with a significantly slower relaxation response following isoprenaline induced contraction. We hypothesise that this novel modification of myosin binding protein-C represents a new level of control that acts to alter the relaxation kinetics of cardiac myocytes.