Identification of Novel Protein Kinase A Phosphorylation Sites in the M-domain of Human and Murine Cardiac Myosin Binding Protein-C Using Mass Spectrometry Analysis

Cardiac myosin binding protein-C (cMyBP-C) is a large multidomain accessory protein bound to myosin thick filaments in striated muscle sarcomeres. It plays an important role in the regulation of muscle contraction, and mutations in the gene encoding cMyBP-C are a common cause of familial hypertrophic cardiomyopathy, the leading cause of sudden cardiac death in young people.(1) The N-terminal domains including the CO, Cl, cMyBP-C motif, and C2 domains play a crucial role in maintaining and modulating actomyosin interactions (keeping normal cardiac function) in a phosphorylation-dependent manner. The cMyBP-C motif or M-domain is a highly conserved linker domain in the N-terminus of cMyBP-C that contains three to five protein kinase A (PKA) phosphorylation sites, depending on species. For the human isoform, three PKA sites were previously identified (Ser(275), Ser(284), and Ser(304)), while three homologous sites exist in the murine isoform (Ser(273), Ser(282), and Ser(302)). The murine cMyBP-C isoform contains an additional conserved consensus site, Ser(307) that is not present in the human isoform. In this study, we investigated sites of PKA phosphorylation of murine and human cMyBP-C by treating the recombinant protein C0C2 (similar to 50 KDa, which contains the N-terminal CO, Cl, M, and C2 domains) and C1C2 (similar to 35 KDa, contains Cl, M, and C2 domains) with PKA and assessing the phosphorylation states using SDS-PAGE with ProQ Diamond staining, and powerful hybrid mass spectrometric analyses. Both high-accuracy bottom-up and measurements of intact proteins mass spectrometric approaches were used to determine the phosphorylation states of C0C2 and C1C2 proteins with or without PKA treatment. Herein, we report for the first time that there are four PKA phosphorylation sites in both murine and human M-domains; both murine Ser(307) and a novel human Ser(311) can be phosphorylated in vitro by PKA. Future studies are needed to investigate the phosphorylation state of murine and human cMyBP-C in vivo.