Abstract
Cardiac myosin interacts cyclically with actin in the presence of ATP in the sarcomere to drive heart contraction. Previous fiber studies suggested that the structure and function of myosin in the thick filaments are regulated by its own regulatory light chain (RLC) phosphorylation and through its interaction with myosin binding protein-C (MyBP-C). Interestingly, ∼80% of mutations that cause hypertrophic cardiomyopathy (HCM), a relatively common genetic cardiac disorder characterized by hypercontractility, have been found in the genes encoding human β-cardiac myosin and human cardiac MyBP-C. It has been hypothesized that the heads of the two-headed motor can adopt a sequestered structure where the heads interact asymmetrically with their own tail as Ser-15 residue of RLC remains dephosphorylated, and the N-terminal domains of MyBP-C binds to myosin to stabilize the structure. We designed two different two-headed human β-cardiac myosin motor constructs differing in the length of their S2 tail domains and co-expressed them with both of the human light chains to test the hypothesis that the number of myosin heads available for interaction with actin is regulated by phosphorylation of the RLC and MyBP-C. The shorter construct (2-hep HMM) is devoid of the tail region needed for the interaction of S2 with its S1 heads whereas the longer one (25-hep HMM) has the required length of S2 tail region to allow such interactions. We found that the maximal actin-activated ATPase rate for 2-hep HMM and the single-headed myosin construct S1 are essentially the same, and are only slightly changed by RLC phosphorylation. On the other hand, de-phosphorylated 25-hep HMM has a significantly lower maximal actin-activated ATPase than the 2-hep HMM, consistent with the former having fewer actin-accessible S1 heads than the latter. Additionally, binding experiments of 2-hep and 25-hep HMM with the N-terminal C0-C2 domain of human cardiac MyBP-C showed that the affinity of complex formation is weakened by phosphorylation of either RLC or MyBP-C.
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