Abstract
The substrate binding properties of skeletal muscle myosin light chain kinase were investigated with a synthetic peptide containing the photoreactive amino acid p-benzoylphenylalanine (Bpa) incorporated amino-terminal of the phosphoacceptor serine (BpaKKRAARATSNVFA). When photolyzed at 350 nm, the peptide was cross-linked stoichiometrically to myosin light chain kinase in a Ca2+/calmodulin-dependent manner. Peptide incorporation into kinase inhibited light chain phosphorylation, and the loss of kinase activity was proportional to the extent of peptide incorporated. After peptide I was incorporated into myosin light chain kinase, it was partially phosphorylated in the absence of Ca2+/calmodulin. The extent of phosphorylation increased in the presence of Ca2+/calmodulin. The cross-linked photoadduct was digested, labeled peptides were purified by high performance liquid chromatography, and sites of covalent modification were determined by amino acid sequencing and analysis. The covalent modification in the catalytic core occurred on Ile-373 (66%) and in a peptide containing residues Asn-422 to Met-437 (14%), respectively. Lys-572 in the autoinhibitory region accounted for 20% of the incorporated label. The coincident covalent modification of the autoinhibitory domain suggests that it is located near the catalytic site. Based upon a model of the catalytic core, the substrate peptide is predicted to bind in the cleft between the two lobes of the kinase. The orientation of the substrate peptide on myosin light chain kinase is similar to the orientation of the substrate recognition fragment, but not the high affinity binding fragment, of inhibitor peptide of cAMP-dependent protein kinase in the catalytic subunit of the cAMP-dependent protein kinase.
Highlights
From the Department of Physiology and Wloward Hughes Medical Institute, University of Texas Southwestern Medical Center at Dallas, Dallas, Texas 75235
There was a slight decrease in the Vmax value obtained with the labeled peptide compared with the unlabeled peptide. These values are similar to those previously reported for the unlabeled peptide and myosin light chains from rabbit skeletal or chicken smooth muscles (Michnoff et al, 1986). These results suggest that the introduction of Bpa into the synthetic peptide did not significantly alter its properties as a substrate for rabbit skeletal muscle myosin light chain kinase
Effect of Ca2 + / Calmodulin and ATP on the Covalent Incorporation of Peptide I into Myosin Light Chain Kinase-The maximal extent of photoaffinity labeling of myosin light chain kinase with peptide I was 0.92 mol of peptide IImol of kinase in the presence of Ca2+/calmodulin, whereas the extent of crosslinking in the presence of EGTA was less than 0.15 mol of peptide/mol of kinase (Fig. lA)
Summary
Dept. of Physiology, University ofTexas Southwestern MedicalCenter at Dallas, Dallas, TX 75235-9040. It has been proposed that three basic residues in a putative pseudosubstrate sequence found in an internal autoinhibitory domain bind to three specific acidic residues preceding near or in a-helix G (Knighton et al, 1992) This proposed model was based upon the structure of the catalytic core of the cAMP-dependent protein kinase and its bound pseudosubstrate inhibitor peptide, PKI. In this investigation we characterized the conditions for the covalent labeling of rabbit skeletal muscle myosin light chain kinase with a synthetic peptide substrate containing a photoreactive amino acid, Bpa, at the P-9 position that is immedi-.
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