Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:2.7.11.13 (protein kinase C)
49,245 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To gain insight into the mechanism by which long-chain acyl-CoA thioesters potentiate diacylglycerol-activated protein kinase C, the cofactor dependence of this activating effect was studied with purified rat brain enzyme and histone H1 as substrate. Using two different assay systems, palmitoyl-CoA was found to decrease greatly the amount of phosphatidylserine required to activate the kinase. No relative changes were observed in the dependence of the enzyme for other cofactors (diacylglycerol, ATP, and Ca2+) in the presence of palmitoyl-CoA. The potentiating effect of palmitoyl-CoA and the decrease in phosphatidylserine requirement of the kinase was also demonstrated using the 47-kDa protein of human platelets as substrate and platelet protein kinase C as source of enzyme. The acyl-CoA thioester of the carcinogenic peroxisome-proliferator ciprofibrate was also found to decrease the phosphatidylserine requirement of protein kinase C. The data suggest that acyl-CoAs may play a role in the regulation of protein kinase C activity.
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PMID:Palmitoyl-CoA and the acyl-CoA thioester of the carcinogenic peroxisome-proliferator ciprofibrate potentiate diacylglycerol-activated protein kinase C by decreasing the phosphatidylserine requirement of the enzyme. 236 49

Synthetic peptide analogs of the bovine myelin basic protein (MBP) corresponding to residues 104-118 were found to specifically inhibit phospholipid/ Ca2+-dependent protein kinase (protein kinase C). The peptides [Ala107]MBP (104-118) and [Ala113]MBP (104-118) inhibited protein phosphorylation of intact MBP, histone H1 and peptide phosphorylation with MBP(104-123), MBP(104-118) or [Ala105]MBP (104-118) as substrates. The inhibitor peptides [Ala107]MBP(104-118) and [Ala113]MBP (104-118), containing alanine in place of the arginine recognition sites, apparently inhibited the enzyme noncompetitively with respect to substrates, with IC50 values ranging from 46-145 and 28-62 microM, respectively. These peptide analogs did not inhibit cyclic AMP-dependent protein kinase or myosin light chain kinase but inhibited phospholipid/Ca2+-dependent phosphorylation of endogenous proteins in the total, solubilized fraction of rat brain.
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PMID:Synthetic myelin basic protein peptide analogs are specific inhibitors of phospholipid/calcium-dependent protein kinase (protein kinase C). 241 28

Two intrinsic proteins of bovine lens membranes with apparent relative molecular masses (Mr, app) of 26,000 and 18,000 were phosphorylated in intact membranes by protein kinase C prepared from either bovine brain or lens. The kinase preparations exhibited histone H1 phosphorylation dependent on calcium and phospholipid but not on cAMP. Sodium dodecyl sulfate/polyacrylamide gel electrophoresis of the lens membranes showed a major band at Mr, app = 26,000 (identified as MP26, the main intrinsic protein of lens fiber cells), an intermediate band at Mr, app = 18,000 and several minor bands. Autoradiography of complete assay mixture containing protein kinase C, calcium, magnesium and [gamma-32P]ATP showed major bands at Mr, app = 18,000 and 26,000. Several lines of evidence indicated that the label at Mr, app = 26,000 was associated with MP26, a protein which has been found in lens junctions and which may form cell-cell channels. Treatment of the phosphorylated membranes with chymotrypsin and V8 protease cleaved the major band at Mr, app = 26,000 to fragments of Mr, app .= 22,000 and 24,000. Label was not detected in the resulting Mr, app = 22,000 peptide, but the Mr, app = 24,000 peptide was found to be labeled. Phosphoamino acid analysis of MP26 indicated that approximately 75% of the label was on phosphoserine and 25% was on phosphothreonine. No label was found on phosphotyrosine. These results differ from those reported for cAMP-dependent phosphorylation of lens proteins. Phosphorylation by protein kinase C may account for some of the labeling of MP26 detected in vivo.
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PMID:Phosphorylation of lens intrinsic membrane proteins by protein kinase C. 242 29

In this study, several complementary techniques have been used to investigate the involvement of a protein kinase C (PKC) molecule in the plasma membrane-cytoskeleton interactions that occur in mouse T-lymphoma cells. Our data indicate that the lymphoma plasma membrane contains a 78-kDa polypeptide that exists in a complex with one of the major transmembrane glycoproteins, GP85 (a wheat germ agglutinin-binding protein). This membrane-associated 78-kDa protein appears to have PKC-like properties based on the following criteria: 1) it cross-reacts with a specific antibody raised against brain PKC; 2) it has a pI of 5.6-5.8, which is similar to that of the PKC described previously in other cell types; and 3) it displays characteristic PKC enzymatic activity by phosphorylating histone H1 in a Ca2+- and phospholipid-dependent manner. Double immunocytochemical staining experiments reveal that the lymphoma PKC-like molecules translocate from the cytoplasm to the cell membrane and accumulate directly underneath receptor capped structures following addition of various ligands. Studies we have done to identify the cellular substrate(s) of the lymphoma plasma membrane-associated PKC have shown that GP85 is preferentially phosphorylated in isolated membrane preparations following addition of the PKC activator, TPA (phorbol-12-O-tetradecanoyl-phorbol 13-acetate), but not the biologically inactive TPA analogue, 4 alpha-PDD (4 alpha-phorbol 12,13-didecanoate). In addition, we have found that GP85 can be phosphorylated by purified brain protein kinase C. Analysis of the resulting phosphoamino acids indicates that phosphorylation of GP85 occurs primarily at serine residues, occurs in minor amounts (approximately 5%) at threonine residues, and does not occur at tyrosine residues. These data indicate that the lymphoma GP85 is a substrate for PKC. Furthermore, we have established that phosphorylation of GP85 by PKC enhances its binding affinity with the membrane linker molecule, ankyrin. These findings suggest that PKC-mediated phosphorylation of GP85 may be an important part of the lymphoma plasma membrane-cytoskeleton interaction.
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PMID:Lymphoma protein kinase C is associated with the transmembrane glycoprotein, GP85, and may function in GP85-ankyrin binding. 247 Jul 41

A protein kinase C activity from epimastigote forms of Trypanosoma cruzi was characterized. Cytosolic extracts were chromatographed on DEAE-cellulose columns giving two peaks of kinase activity which were eluted at 0.1 and 0.15 M NaCl. The first activity peak requires Ca2+ and phosphatidylserine for activity. Further kinase purification was performed by chromatography on phenyl Sepharose columns. In these columns the enzyme activity was adsorbed in the presence of Ca2+ and eluted with a EGTA-containing buffer. T. cruzi protein kinase C activity preferentially phosphorylated histone H1. It was stimulated by diacylglycerol and phorbol myristate acetate, and inhibited by polymyxin B and staurosporine. After subcellular fractionation and epimastigote cells, the kinase was found to be associated with microsomal and cytosolic fractions.
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PMID:Protein kinase C in Trypanosoma cruzi epimastigote forms: partial purification and characterization. 250 73

Both in vivo and in vitro, neurofilaments (NFs) are among the most highly phosphorylated proteins known. The majority of the NF phosphorylation sites reside on the carboxyl-terminal tails of the proteins. We have isolated and characterized an effector-independent neurofilament-specific protein kinase from bovine spinal cord that is associated with the NF complex and exhibits a marked substrate specificity for NF-H, the largest subunit of the NF triplet. This kinase activity emerges from a NF-conjugated affinity column coincident with a 67-kDa doublet on NaDodSO4/polyacrylamide gels and has a purity of greater than 90%. The purified enzyme exclusively phosphorylates NF-H tails and is dependent on prior phosphorylation of this molecule. The enzyme is also not autophosphorylated. While the molecular properties and substrate specificities of the NF kinase distinguish it from cAMP-dependent protein kinase, protein kinase C, Ca2+/calmodulin kinase, and casein kinases I and II, it exhibits certain properties similar to, but different from, the growth-associated histone H1 kinase. The molecular properties and specific sequence requirements of the NF kinase suggest that this enzyme could play a pivotal role in the phosphorylation of NFs in normal and pathological states such as Alzheimer disease, where NFs are hyperphosphorylated.
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PMID:Resolution and purification of a neurofilament-specific kinase. 253 75

The activities of rat brain protein kinase C isoenzymic fractions separated by hydroxyapatite chromatography were measured with histone H1 or the oligopeptide Ala-Ala-Ala-Ser-Phe-Lys-Ala-Lys-Lys-amide as substrates. The oligopeptide was a better substrate than histone H1 for nearly all of the protein kinase C fractions. Two subfractions of type III isoenzyme were resolved (IIIa and IIIb); type IIIb was characterized by a very low histone kinase activity compared to its peptide kinase activity. In some brain extracts a phospholipid-dependent but Ca2+-inhibited protein kinase was also observed which was eluted from the hydroxyapatite column between type II and III isoenzymes of protein kinase C.
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PMID:Two components of type III protein kinase C with different substrate specificities and a phospholipid-dependent but Ca2+-inhibited protein kinase in rat brain. 254 54

When Swiss 3T3 fibroblasts are treated with a combination of IGF-I2 and bombesin at mitogenic concentrations, in vivo phosphorylation of some nuclear proteins occurs within 45-90 min. Among these proteins, histone H1 and a 0.75 M PCA soluble polypeptide with an apparent Mr of 21,000, as revealed by electrophoretic analysis, are phosphorylated in vitro by protein kinase C in isolated nuclei purified from 3T3 cells treated for 90 min with IGF-I and bombesin. Since these phosphorylative events follow the earlier changes, recently demonstrated, in nuclear polyphosphoinositide metabolism induced by the same mitogen combination, it seems possible that these two phenomena are related to each other and trigger the synthetic machinery responsible for replicating DNA.
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PMID:Mitogen-stimulated phosphorylation of nuclear proteins in Swiss 3T3 cells: evidence for a protein kinase C requirement. 255 61

A protein kinase activity was identified in pig brain that co-purified with microtubules through repeated cycles of temperature-dependent assembly and disassembly. The microtubule-associated protein kinase (MTAK) phosphorylated histone H1; this activity was not stimulated by cyclic nucleotides. Ca2+ plus calmodulin, phospholipids or polyamines. MTAK did not phosphorylate synthetic peptides which are substrates for cyclic AMP-dependent protein kinase, cyclic GMP-dependent protein kinase. Ca2+/calmodulin-dependent protein kinase II, protein kinase C or casein kinase II. MTAK activity was inhibited by trifluoperazine [IC50 (median inhibitory concn.) = 600 microM] in a Ca2+-independent fashion. Ca2+ alone was inhibitory [IC50 = 4 mM). MTAK was not inhibited by heparin, a potent inhibitor of casein kinase II, nor a synthetic peptide inhibitor of cyclic AMP-dependent protein kinase. MTAK demonstrated a broad pH maximum (7.5-8.5) and an apparent Km for ATP of 45 microM. Mg2+ was required for enzyme activity and could not be replaced by Mn2+. MTAK phosphorylated serine and threonine residues on histone H1. MTAK is a unique cofactor-independent protein kinase that binds to microtubule structures.
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PMID:Properties of a microtubule-associated cofactor-independent protein kinase from pig brain. 255 23

As an extension of our previous reports that cardiac and skeletal muscle troponin I (Tn-I) and troponin T (Tn-T) are excellent substrates for protein kinase C (PKC) (Katoh, N., Wise, B. C., and Kuo, J. F. (1983) Biochem. J. 209, 189-195; Mazzei, G. J., and Kuo, J. F. (1984) Biochem. J. 218, 361-369), we have now determined that PKC phosphorylated serine 43 (and/or serine 45), serine 78, and threonine 144 in the free Tn-I subunit and threonine 190, threonine 199, and threonine 280 in the free Tn-T subunit of bovine cardiac troponin. PKC appeared to phosphorylate the same sites of the subunits present in the form of the troponin complex, as indicated by the similarity in the two-dimensional phosphopeptide maps. Although some of the phosphorylation sites were shared by other classes of protein kinases, PKC exhibited a distinct substrate specificity. It was also noted that phosphorylated serine and threonine residues in Tn-I and Tn-T had neighboring basic amino acid residues separated by 1 or 2 other residues both at the amino and carboxyl termini, in agreement with the conclusion of House et al. (House, C., Wettenhall, R. E. H., and Kemp, B. E. (1987) J. Biol. Chem. 262, 772-777) based upon their studies on other substrate proteins. Several peptides having sequences around the phosphorylating sites have been synthesized. The phosphorylation experiments indicated that these peptides were substrates for PKC, and their relative substrate activity (determined by the ratios of Vmax/Km) compared with other proteins, in descending order, was Tn-I = Tn-I(134-154) greater than Tn-T much greater than histone H1 greater than Tn-I(33-35) approximately Tn-T(268-284) greater than Tn-T(179-198) approximately Tn-T(191-209). It is suggested that PKC phosphorylation of Tn-I and Tn-T could be biologically significant in terms of possible modifications in interactions among the individual contractile protein components as well as the Ca2+ sensitivity and activity of actomyosin ATPase.
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PMID:Identification of sites phosphorylated in bovine cardiac troponin I and troponin T by protein kinase C and comparative substrate activity of synthetic peptides containing the phosphorylation sites. 258 39


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