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)

Okadaic acid is a potent and specific inhibitor of protein phosphatases 1 and 2A, and is a strong tumor promoter that is not an activator of protein kinase C. Treatment of quiescent cultures of rat fibroblastic 3Y1 cells with okadaic acid induced marked activation of a kinase activity that phosphorylated microtubule-associated protein (MAP) 2 and myelin basic protein, but not histone or casein, in vitro. This activated kinase eluted at approximately 0.15 M NaCl on a DEAE-cellulose column and its apparent molecular mass was determined to be approximately 40 kDa by gel filtration. Detection of the kinase activity in polyacrylamide gels containing substrate proteins after sodium dodecyl sulfate gel electrophoresis revealed that the okadaic-acid-activated kinase activity resided mainly in two closely related polypeptides with apparent molecular mass approximately 40 kDa. The characteristics of this kinase were indistinguishable from those of the mitogen-activated MAP kinase in the same cells. The okadaic-acid-activated MAP kinase was deactivated by protein phosphatase 2A treatment in vitro. These results suggest that MAP kinase is negatively regulated by protein phosphatases 1 and/or 2A in quiescent cells and therefore can be activated by inhibiting these protein phosphatases. Interestingly, the okadaic-acid-induced activation of MAP kinase was transient and epidermal-growth-factor-induced activation was also transient, even in the presence of okadaic acid. These data may imply that protein phosphatases 1 and 2A are not involved in the deactivation of MAP kinase in cells.
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PMID:Okadaic acid activates microtubule-associated protein kinase in quiescent fibroblastic cells. 217 62

The substrate specificity of phospholipid/Ca2+-dependent protein kinase (protein kinase C) was studied using synthetic peptides, in particular those corresponding to the amino acid sequence around serine 115 in bovine myelin basic protein (MBP). It was found that MBP (104-118) and MBP (104-123) were substrates for the enzyme, with apparent Km values of 14 and 10 microM, respectively. Neither MBP (111-118) nor MBP (111-123) were phosphorylated, indicating that an additional segment of sequence extending toward the N terminus, but not toward the C terminus, was essential for the substrate activity of the peptides. Of the alanine-substituted analogs examined, [Ala 105] MBP (104-118) was comparable to the parent peptide, whereas [Ala 107] MBP (104-118) and [Ala 113] MBP-(104-118) were much poorer substrates. These findings indicated that lysine 105 was not essential, but both arginine 107 and arginine 113 were important specificity determinants. Initial studies revealed that [Ala 113] MBP (104-118) inhibited phosphorylation by the enzyme of the parent peptide and, to a lesser extent, the intact MBP(1-170). Serine 115 was the only site phosphorylated in the analog peptides [Ala 105] MBP (104-118) and [Ala 107]MBP (104-118). In the parent peptide, serine 115 was the initial site of phosphorylation but after prolonged phosphorylation other sites became phosphorylated (serine 110 and/or serine 112), further supporting the concept that arginine residues act as essential substrate specificity determinants for phospholipid/Ca2+-dependent protein kinase.
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PMID:Substrate specificity of phospholipid/Ca2+-dependent protein kinase as probed with synthetic peptide fragments of the bovine myelin basic protein. 241 12

The substrate specificity of protein kinase C was studied and compared with that of cyclic AMP-dependent protein kinase (protein kinase A) by using bovine brain myelin basic protein as a model substrate. This basic protein was phosphorylated at multiple sites by both of these protein kinases. In this analysis, the basic protein was thoroughly phosphorylated in vitro with [gamma-32P]ATP and each protein kinase, and then digested with trypsin. The resulting radioactive phosphopeptides were isolated by gel filtration followed by high performance liquid chromatography on a reverse-phase column. Subsequent amino acid analysis and/or sequential Edman degradation of the purified phosphopeptides, together with the known primary sequence of this protein, revealed that Ser-46 and Ser-151 were specifically phosphorylated by protein kinase C, whereas Thr-34 and Ser-115 were phosphorylated preferentially by protein kinase A. Both kinases reacted with Ser-8, Ser-11, Ser-55, Ser-110, Ser-132, and Ser-161 at various reaction velocities. Contrary to protein kinase A, protein kinase C appears to react preferentially with seryl residues that are located at the amino-terminal side close to lysine or arginine. The seryl residues that are phosphorylated commonly by these two protein kinases have basic amino acids at both the amino- and carboxyl-terminal sides. These results provide some clues to understanding the rationale that these kinases may show different but sometimes similar functions depending on the structure of target phosphate acceptor proteins.
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PMID:Studies on the phosphorylation of myelin basic protein by protein kinase C and adenosine 3':5'-monophosphate-dependent protein kinase. 241 24

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

In an effort to gain a more complete understanding of the regulation of myelin basic protein phosphorylation, we have been interested in defining further the mode of regulation of the myelin protein kinase involved in this posttranslational modification. Here we report the partial purification of a protein kinase from rat brain myelin. By gel filtration, it was determined that the molecular weight of this enzyme was in the range of 70-80 X 10(3) daltons Furthermore, it was established that at low calcium concentrations, this enzyme was markedly activated by phosphatidylserine in combination with either 4 beta-phorbol 12-myristate 13-acetate or diolein. The enzyme was not affected by cyclic AMP or by calcium, alone or in combination with calmodulin. On the basis of these findings this enzyme can be identified as a protein kinase C-like enzyme.
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PMID:Activation of myelin protein kinase by diacylglycerol and 4 beta-phorbol 12-myristate 13-acetate. 242 Sep 38

When isolated adult oligodendrocytes adhere to a substratum myelinogenesis occurs. Investigation of the mechanism by which this happens indicated that the oligodendrocyte-substratum interaction activated protein kinase C-dependent phosphorylation of myelin basic protein and promoted the synthesis of myelin basic protein. In addition, when agents that activate protein kinase C (second messenger diacylglycerol or a tumor-promoting phorbol ester) were added to nonattached oligodendrocytes, they mimicked the influence of the substratum by inducing phosphorylation of myelin basic protein; and reagents that increase cellular adenosine 3', 5'-monophosphate (cyclic AMP) inhibited phosphorylation of myelin basic protein. Thus, at least in vitro, the interaction between oligodendrocytes and the substratum may mediate myelinogenic events, and phosphorylation of myelin basic protein may be an early requirement in the sequence of steps that ultimately results in myelin formation.
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PMID:Oligodendrocyte adhesion activates protein kinase C-mediated phosphorylation of myelin basic protein. 243 83

The activity of protein kinase C (Ca2+/phospholipid-dependent enzyme) in the presence of phosphatidylserine and its physiological regulator, diacylglycerol, could be suppressed by a mixture of brain gangliosides. Half-maximal inhibition was observed at 30 microM and was nearly complete at 100 microM. Inhibition was observed at all concentrations of Ca2+ between 10(-8) and 10(-4) M. Inhibition of protein kinase C activity could not be reversed by increasing the concentration of diacylglycerol or the substrate, histone. Inhibition was also observed when myelin basic protein or a synthetic myelin basic protein peptide was used as substrate. Among the individual gangliosides, the rank order of potency was GT1b greater than GD1a = GD1b greater than GM3 = GM1. Our results suggest that gangliosides may regulate the responsiveness of protein kinase C to diacylglycerol.
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PMID:Regulation of protein kinase C activity by gangliosides. 243 84

Gangliosides have profound effects on the phosphorylation of several proteins in myelin. Addition of polysialogangliosides to purified guinea pig brain myelin enhanced the endogenous phosphorylation of a 62-kDa phosphoprotein, but completely inhibited the phosphorylation of myelin basic protein (MBP) (18.5 kDa). The ganglioside-stimulated phosphorylation of the 62-kDa protein was dose-dependent and -specific. Asialo-GM1, ceramide trihexosides, N-acetylneuraminic acid, or colominic acid alone could not mimic this effect, suggesting that the activation process requires both the hydrophobic head group and the anionic character of the gangliosides. Studies on the time course of this reaction revealed that it was a rapid and reversible process and was affected only very slightly by Ca2+. Thus, the stimulatory effect of gangliosides may not involve Ca2+-gangliosides complexes or proteolysis, but may be mediated through an activation of a ganglioside-dependent protein kinase or due to substrate protein-glycolipid interaction. Modulation of the phosphorylation of MBP by gangliosides varies with the states of phosphorylation of this protein. Prior addition of ganglioside to myelin inhibited the phosphorylation of MBP. However, addition of gangliosides to myelin subsequent to maximal phosphorylation of MBP retarded the dephosphorylation of this protein. Phosphorylation of isolated MBP by protein kinase C was stimulated by gangliosides, provided phosphatidylserine was present. In contrast, the glycolipid inhibited the phosphorylation of a unique site catalyzed by cAMP-dependent protein kinase. This site was distinct from those phosphorylated by protein kinase C and was also sensitive to chymotryptic cleavage. Although the exact physiological significance of protein phosphorylation in myelin has yet to be established, gangliosides may play an important role in the modulation of this reversible post-translational modification mechanism.
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PMID:Ganglioside-modulated protein phosphorylation in myelin. 243 83

It has previously been demonstrated that staphylococcal alpha-toxin can selectively induce disruption of myelin sheaths in the central nervous system, albeit the exact mechanism is not known. In this report we show for the first time that the staphylococcal alpha-toxin could stimulate the endogenous phosphorylation of several proteins, including myelin basic protein (Mr = 18,500) in purified guinea pig brain myelin. This stimulatory effect does not require the presence of calcium and is distinct from those modulated by calcium and phospholipids. In vitro phosphorylation of isolated myelin basic protein by the purified catalytic subunit of cAMP-dependent protein kinase was enhanced in the presence of alpha-toxin, whereas the reaction catalyzed by protein kinase C, a Ca2+-activated and phospholipid-dependent protein kinase, was not affected. These results suggest that some of the toxic effects of staphylococcal alpha-toxin on myelin may be mediated through post-translation covalent modification, such as phosphorylation of specific proteins.
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PMID:Staphylococcus aureus alpha-toxin. 1. Effect on protein phosphorylation in myelin. 244 54

The molecular mechanisms of myelin formation/reformation in the central nervous system are unknown. In previous work we have demonstrated that mature oligodendrocytes (OLG) respond to a signal(s), elicited by their adhesion to a substratum, by turning on a myelinogenic metabolism. Events occurring within 24 hr of adhesion include generation of diacylglycerol, activation of protein kinase C, phosphorylation of myelin basic protein, and enhanced synthesis of myelin lipids and proteins. To elucidate the mechanism(s) of signal transduction, we have investigated whether OLG-substratum interaction influences the level of basal cAMP and the expression of receptors coupled to adenylate cyclase. By using ovine brain OLG we have found that adhesion to a polylysine-coated surface for 24 hr increased the basal level of cAMP 2-fold and altered the expression (assessed by cAMP production) of receptors coupled to adenylate cyclase. Isoproterenol (beta-adrenergic agonist) augmented cAMP from 4 to 26 pmol/mg of protein in adhering OLG but had no such effect in nonattached OLG. Adhesion of OLG was accompanied by rapid synthesis of ethanolamine plasmalogen, a class of lipids believed to be associated with beta-adrenergic receptors. Nonattached OLG responded to prostaglandin E1 with only a 3-fold stimulation in their cAMP content; in attached OLG, 6-fold stimulation was observed. In contrast, vasoactive intestinal polypeptide elicited a 3-fold increase in cAMP in nonattached OLG but, following 24 hr of attachment, OLG did not respond to vasoactive intestinal polypeptide. The increase of cellular cAMP levels was accompanied by a 2.5-fold gain in protein kinase A. OLG-substratum adhesion resulted also in phosphorylation of the OLG/myelin protein, 2',3'-cyclic nucleotide 2'-phosphodiesterase, which proved to be a substrate for cAMP and phospholipid-, Ca2+-dependent protein kinases. These findings, in conjunction with our earlier work, implicate cAMP and diacylglycerol in signaling myelinogenesis; they suggest that phosphorylation/dephosphorylation of myelin basic protein and 2',3'-cyclic nucleotide 2'-phosphodiesterase may be key processes in the cascade of events that are initiated by adhesion of OLG to a polylysine surface (possibly acting as a surrogate for axons) and culminate in the reformation of myelin.
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PMID:Oligodendrocyte substratum adhesion modulates expression of adenylate cyclase-linked receptors. 244 85


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