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)

Certain lysophospholipids, lysophosphatidylcholine (lyso-PC) in particular, stimulated protein kinase C at low concentrations (less than 20 microM) but, conversely, inhibited it at high concentrations (greater than 30 microM). Protein kinase C stimulation by lyso-PC required the presence of phosphatidylserine (PS) and Ca2+ and was associated with a decreased Ka for PS and increased Ka for Ca2+ of the enzyme. Cardiolipin and phosphatidic acid could partially substitute for PS in supporting the stimulatory effect of lyso-PC. Lyso-PC also biphasically regulated protein kinase C activated by diolein. Of several synthetic lyso-PC preparations tested, the oleoyl, myristoyl and palmitoyl derivatives were most active. Data from the Triton X-100 mixed micellar assay indicated that 1.4 and 14.0 mol of lyso-PC/micelle produced a maximal stimulation and a complete abolishment of the stimulation of protein kinase C, respectively. Protein kinase C stimulation by lyso-PC, with a pH optimum of about 7.5, was observed for phosphorylation of histone H1, myelin basic protein, and the 35- and 47-kDa proteins from the rat brain, but not for that of other histone subfractions and protamine. Lyso-PC acted synergistically with diacylglycerol in stimulating protein kinase C, whereas the stimulation by lyso-PC was additive to that by oleic acid. Protein kinase C inhibitors (alkyllysophospholipid, sphingosine, tamoxifen, and polymyxin B) inhibited more potently the protein kinase C activity stimulated by PS/Ca2+/lyso-PC than that stimulated by PS/Ca2+. The stimulatory and inhibitory effects of lyso-PC were not observed for myosin light chain kinase and cAMP-dependent protein kinase, indicating a specificity of its actions. The present findings suggested that lyso-PC, likely derived from membrane PC by the action of phospholipase A2, might play a role in signal transduction via a dual regulation of protein kinase C, and that it could further modulate the enzyme and hence the cellular activity by interplaying with diacylglycerol and unsaturated fatty acid, the two other classes of cellular mediators also shown to be activators of protein kinase C.
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PMID:Regulation of protein kinase C by lysophospholipids. Potential role in signal transduction. 336 Aug 11

The role of substrate in influencing the cofactor requirements of the phospholipid- and Ca2+-dependent protein kinase C (PKC) was investigated by using several substrates. All of the substrates tested, including histone, troponin I, myosin light chain, protamine, poly(arginine, serine) (PAS), poly(lysine, serine) (PLS), and myelin basic protein (MBP), were found to interact with and aggregate phospholipid vesicles as well as phosphatidylserine (PS)-Triton mixed micelles. Phosphorylation of these different substrates by PKC indicated the presence of three distinct substrate categories: substrates such as protamine requiring no cofactors; substrates such as PLS, PAS, and MBP requiring only the presence of phospholipid; and substrates such as histone, myosin light chain, and troponin I requiring the presence of Ca2+ and phospholipid. Diacylglycerol was a major cofactor only with category C substrates. These different requirements correlated with the interaction of the substrate with phospholipid and/or enzyme. The substrates in category A interacted strongly with and aggregated PKC in a binary mixture. In the absence of Ca2+, PKC bound to substrates of category B directly but not to substrates in category C. Thus, substrate-enzyme binding eliminated the Ca2+ requirement of phosphorylation, and aggregation of substrate-enzyme complex eliminated the phospholipid requirements as well. Substrate-phospholipid interaction and substrate phosphorylation were inhibited by increasing salt concentrations, but the amount needed depended upon the substrate. Loss of PKC activity appeared to coincide with loss of substrate-PS aggregation while dissociation of PKC from the membranes required much higher salt concentrations. Poly(L-lysine) and poly(L-arginine), two potent inhibitors of PKC, also showed substrate-dependent inhibition characteristics.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Role of substrate in imparting calcium and phospholipid requirements to protein kinase C activation. 359 3

The substrate specificity of purified human protein kinase C was modulated by 12-O-tetradecanoyl-4 beta-phorbol-13-acetate (TPA), dioleoylglycerol, arachidonic acid and lipid A when histone type III-S and myelin basic protein were used as phosphate acceptors. Each activator also showed a distinct pattern in the stimulation of phosphorylation of the kinase itself and of cytosolic placental proteins. The nature of the substrate and the presence of calcium and phospholipid determined the magnitude of the effect observed upon addition of all activators and also the dose dependency of kinase activation by TPA. The apparent Km value for phosphorylation of histone type III-S by the kinase activated by phorbol ester alone and with calcium was 20-30 fold higher than that observed for the enzyme activated by calcium and phospholipid. These observations indicate that the nature and extent of cellular response induced by the activation of C-kinase(s) may be determined by the type of cellular stimulus.
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PMID:Modulation of the substrate specificity of purified human protein kinase C by its activators. 363 May 20

cDNA clones encoding the third member of the RAC protein kinase family, termed RAC-PK gamma, were isolated from a rat brain cDNA library. The deduced amino acid sequence of RAC-PK gamma was highly related to those of previously identified family members, RAC-PK alpha and beta, that have a pleckstrin homology domain and a protein-serine/threonine kinase catalytic domain at the amino- and carboxyl-terminal regions, respectively. Northern blot analysis indicated that RAC-PK gamma was expressed abundantly in brain and testis. Specific activities of RAC-PK alpha, beta, and gamma purified from transfected COS-7 cells were similar when measured by using myelin basic protein as a phosphate acceptor. Analysis using fusion proteins of glutathione S-transferase revealed that the pleckstrin homology domain of the three subtypes of RAC-PK associate with both protein kinase C subspecies and beta gamma subunits of G proteins. These results suggest that the pleckstrin homology domains of RAC protein kinase family could associate more than one protein to regulate the activity and/or intracellular distribution of this enzyme family by different ways.
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PMID:Molecular cloning and characterization of a new member of the RAC protein kinase family: association of the pleckstrin homology domain of three types of RAC protein kinase with protein kinase C subspecies and beta gamma subunits of G proteins. 748 43

We show here that treatment of 3T3-L1 cells with leukemia inhibitory factor (LIF) stimulates the activation of mitogen-activated protein kinase kinase (MAPKK), mitogen-activated protein kinase (MAPK), and S6 protein kinase (S6K) activities both in a time- and dose-dependent manner. A single peak of MAPKK activity, four peaks of activity against the S6 synthetic peptide, RRLSSLRA (S6 peptide), and three distinct peaks toward myelin basic protein (MBP) were observed after Mono-Q chromatography of LIF-stimulated cell extracts. Two of the MBP kinase activities correlated with the stimulation of extracellular signal-regulated kinases 1 and 2. Interestingly, down-regulation of protein kinase C (PKC) by chronic treatment of 3T3-L1 cells with phorbol ester was found to attenuate, but not block, the LIF-mediated stimulation of MAPKK, MAPK, and S6K activities in 3T3-L1 cells. Treatment of 3T3-L1 cells with epidermal growth factor increased MAPKK, MAPK, and S6K activities to a similar extent as LIF, but this activation was not attenuated by down-regulation of PKC. Our results suggest that the full activation of the MAPK cascade by LIF may require inputs from multiple signaling pathways, one of which is dependent upon the presence of functional PKC.
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PMID:Involvement of protein kinase C during activation of the mitogen-activated protein kinase cascade by leukemia inhibitory factor. Evidence for participation of multiple signaling pathways. 750 1

In this study, we examined the role of insulin, protein kinase C (PKC) and mitogen-activated protein kinase (MAPK) cascade in activation of protein phosphatase-1 (PP-1) by using three complementary approaches. First, differentiated L6 cells were acutely exposed to 12-O-tetradecanoylphorbol-13-acetate (TPA, 400 nM) to activate PKC. In these cells, TPA caused 32% stimulation of PP-1 activity. The PP-1 stimulation by TPA was comparable to stimulation by insulin (t1/2 = 1 min and EC50 = 5 nM) with a maximum effect in 5 min. The effects of insulin and TPA were not additive. Insulin and TPA also stimulated MAPK (> 2-fold increase over basal, with myelin basic protein as a substrate). ML-9, a myosin light chain kinase inhibitor, blocked the effects of insulin and TPA on both MAPK and PP-1 activation. In the second approach, PKC was down-regulated by chronic treatment with TPA. In these cells subsequent effects of insulin on MAPK and PP-1 activation were blocked, without an effect on basal enzyme levels. In the third approach, two selective inhibitors of PKC, calphostin and chelerythrine chloride, were used to inhibit PKC. These inhibitors completely prevented insulin and TPA stimulation of MAPK and PP-1 and blocked insulin-induced translocation of PKC to the plasma membranes. We conclude that PKC plays an important role in insulin stimulation of PP-1 via the activation of MAPK cascade.
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PMID:Stimulation of protein phosphatase-1 activity by phorbol esters. Evaluation of the regulatory role of protein kinase C in insulin action. 751 82

Gamma interferon plays an important role in regulating the functional properties of mononuclear phagocytes. In the present study, the role of activated protein kinases in the mechanism of action of gamma interferon cell signaling in human peripheral blood monocytes was investigated. Analysis in vitro of 100,000 x g cytosolic fractions from untreated and interferon-treated cells showed that agonist treatment resulted in time- and concentration-dependent increases in phosphotransferase activity when myelin basic protein (MBP) was used as the substrate. Anion-exchange chromatography of high-speed supernatants prepared from detergent extracts of interferon-treated cells revealed two discrete peaks of MBP phosphotransferase activity. Immunoblotting of fractions from these peaks with antiphosphotyrosine antibodies and with antibodies that specifically recognize the family of mitogen-activated protein (MAP) kinases detected a MAP kinase with a subunit M(r) of 42,000 in the earliest-eluting peak (peak 1). Phosphorylation of the 42,000-M(r) protein on tyrosine was observed only after treatment of cells with interferon. The contribution of MAP kinase to the interferon-stimulated activity in peak 1 was confirmed by quantitative immunoprecipitation with anti-MAP kinase and antiphosphotyrosine antibodies. The conclusion that the interferon-activated MBP kinase in peak 1 could be accounted for by an activated MAP kinase was also supported by the finding that fractions from Mono Q peak 1 demonstrated activity towards a MAP kinase-specific substrate. The later-eluting peak of interferon-activated MBP phosphotransferase activity appeared to be accounted for by an activated protein kinase C (PKC). This conclusion is based upon analyses of immunoblotting and immunoprecipitation experiments with antibodies to PKC and was also supported by the observed inhibition of this kinase with a PKC pseudosubstrate peptide. The interferon-stimulated PKC present in Mono Q peak 2 was active in the absence of calcium ions, suggesting that it is a calcium-independent isoform of PKC.
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PMID:Gamma interferon induces rapid and coordinate activation of mitogen-activated protein kinase (extracellular signal-regulated kinase) and calcium-independent protein kinase C in human monocytes. 751 11

Since synthesis of myelin components has been seen to be stimulated by cAMP in both oligodendrocytes and Schwann cells we have begun investigating the specific sequence(s) in the 5' flanking region of the myelin basic protein (MBP) gene that are responsible for the induction of MBP transcription by cAMP. Using stably transfected cell lines containing various deletions of the MBP promoter directing the bacterial chloramphenicol acetyltransferase (CAT) gene we have identified a region of the MBP gene that is inhibitory to stimulation by increased cAMP levels. This inhibition can be overcome by pretreating the cells with 12-O-tetradecanoylphorbol 13-acetate (TPA) for 48 hr. The effects on MBP gene expression modulated by TPA and cAMP involve altered DNA-protein interactions in the 5' end of the MBP promoter. The effect of TPA also appears to be mediated by down-regulation of protein kinase C.
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PMID:Involvement of protein kinase C in cAMP regulation of myelin basic protein gene expression. 751 8

Membrane depolarization and changes in ionic fluxes have been implicated in the signaling mechanisms between neurons and glial cells. We report here that K(+)-induced depolarization of cultured ovine oligodendrocytes (OLGs) decreases the phosphorylation of myelin basic protein (MBP) and 2'3'-cyclic nucleotide phosphohydrolase (CNPase). Membrane depolarization and decrease in phosphorylation of MBP and CNPase can also be elicited by inhibition of the inward rectifier with Ba2+ but not by inhibition of outward K+ channels with 4-aminopyridine or tetraethylammonium. These findings demonstrate that modulation of K+ currents can influence phosphorylation states of OLG proteins. Tumor necrosis factor-alpha (TNF-alpha), an immune peptide implicated in autoimmune demyelinating diseases, also inhibits the phosphorylation of these proteins. In contrast to elevated [K+]o, TNF-alpha does not decrease the stimulatory effect of protein kinase C activators or phosphatase inhibitors on MBP and CNPase phosphorylation, suggesting that depolarizing agents and TNF-alpha act via distinct mechanisms. We postulate that the presence of elevated extracellular K+ and/or cytokines under certain pathological conditions can perturb OLG function by altering the phosphorylation states of their proteins and perhaps affect myelin maintenance, contributing to demyelination.
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PMID:Depolarizing agents and tumor necrosis factor-alpha modulate protein phosphorylation in oligodendrocytes. 752 88

To investigate mechanisms of mononuclear phagocyte cell signaling, the effects of bacterial LPS on protein kinase activities in normal human peripheral blood monocytes were examined. Incubation of intact monocytes with LPS brought about time- and concentration-dependent increases in myelin basic protein (MBP) phosphotransferase activity in high speed supernatants of cell lysates. Anion-exchange chromatography on Mono Q demonstrated that LPS treatment resulted in two principal peaks of stimulated MBP kinase activity. Evidence was obtained to indicate that the first eluted peak of MBP kinase activity is accounted for by p42 and p44 mitogen-activated protein (MAP) kinases. Thus, 1) MBP kinase activity within peak 1 was quantitatively precipitated by anti-MAP kinase Abs, 2) the enzyme effectively phosphorylated a specific peptide substrate, 3) peak 1 contained proteins of subunit size M(r) 42,000 and M(r) 44,000 that reacted specifically with anti-MAP kinase Abs, and that 4) were recognized by anti-phosphotyrosine Abs only after stimulation of cells with LPS. Studies of the second peak of LPS-stimulated MBP kinase activity indicate that it is an isoform of protein kinase C (PKC) because: 1) enzyme activity was quantitatively immunoprecipitated by anti-PKC Abs, 2) the activity of the enzyme was potently and selectively inhibited by a specific peptide modeled on the autoinhibitory domain of PKC, and 3) the presence of a protein of subunit size M(r) 80,000 recognized by anti-PKC Abs. Because the second peak of MBP kinase activity (like the first) was active in the absence of added calcium and in the presence of 2 mM EGTA, it appears to be a type II, calcium-independent isoform of PKC. Abs to CD14 completely abrogated LPS-induced activation of both Mono Q peaks of MBP phosphotransferase activity. These results indicate that LPS coordinately activates both an apparently calcium-independent PKC and MAP kinase in mononuclear phagocytes and these responses appear to be initiated by signaling through the cell surface receptor, CD14.
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PMID:CD14-dependent activation of protein kinase C and mitogen-activated protein kinases (p42 and p44) in human monocytes treated with bacterial lipopolysaccharide. 752 66


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