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)

There are clusters of basic amino acids on many cytoplasmic proteins that bind transiently to membranes (e.g., protein kinase C) as well as on the cytoplasmic domain of many intrinsic membrane proteins (e.g., glycophorin). To explore the possibility that these basic residues bind electrostatically to monovalent acidic lipids, we studied the binding of the peptides Lysn and Argn (n = 1-5) to bilayer membranes containing phosphatidylserine (PS) or phosphatidylglycerol (PG). We made electrophoretic mobility measurements using multilamellar vesicles, fluorescence and equilibrium binding measurements using large unilamellar vesicles, and surface potential measurements using monolayers. None of the peptides bound to vesicles formed from the zwitterionic lipid phosphatidylcholine (PC) but all bound to vesicles formed from PC/PS or PC/PG mixtures. None of the peptides exhibited specificity between PS and PG. Each lysine residue that was added to Lys2 decreased by one order of magnitude the concentration of peptide required to reverse the charge on the vesicle; equivalently it increased by one order of magnitude the binding affinity of the peptides for the PS vesicles. The simplest explanation is that each added lysine binds independently to a separate PS with a microscopic association constant of 10 M-1 or a free energy of approximately 1.4 kcal/mol. Similar, but not identical, results were obtained with the Argn peptides. A simple theoretical model combines the Gouy-Chapman theory (which accounts for the nonspecific electrostatic accumulation of the peptides in the aqueous diffuse double layer adjacent to the membrane) with mass action equations (which account for the binding of the peptides to greater than 1 PS). This model can account qualitatively for the dependence of binding on both the number of basic residues in the peptides and the mole fraction of PS in the membrane.
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PMID:Binding of peptides with basic residues to membranes containing acidic phospholipids. 188 32

Two-dimensional mapping of the tryptic phosphopeptides generated following in vitro protein kinase C phosphorylation of the myosin heavy chain isolated from human platelets and chicken intestinal epithelial cells shows a single radioactive peptide. These peptides were found to comigrate, suggesting that they were identical, and amino acid sequence analysis of the human platelet tryptic peptide yielded the sequence -Glu-Val-Ser-Ser(PO4)-Leu-Lys-. Inspection of the amino acid sequence for the chicken intestinal epithelial cell myosin heavy chain (196 kDa) derived from cDNA cloning showed that this peptide was identical with a tryptic peptide present near the carboxyl terminal of the predicted alpha-helix of the myosin rod. Although other vertebrate nonmuscle myosin heavy chains retain neighboring amino acid sequences as well as the serine residue phosphorylated by protein kinase C, this residue is notably absent in all vertebrate smooth muscle myosin heavy chains (both 204 and 200 kDa) sequenced to date.
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PMID:Identification of the serine residue phosphorylated by protein kinase C in vertebrate nonmuscle myosin heavy chains. 189

Prolonged activation of protein kinase C (PKC) types alpha and beta by tumor-promoting phorbol esters leads to desensitization of the phorbol ester response, downregulation of protein kinase C activity and depletion of the protein kinase C polypeptide. When the gamma isoenzyme of PKC is transiently expressed in COS-1 cells and exposed to phorbol esters, PKC-Gamma is downregulated in COS cells although these cells do not normally express this subtype. A point mutation in the putative ATP-binding site (Lys-380----Met-380) of the protein kinase C gamma isoenzyme which results in a kinase-deficient enzyme does not interfere with this downregulation. Our results suggest that autophosphorylation or constitutive signalling through the protein kinase C-gamma kinase domain is not a prerequisite for downregulation of PKC activity.
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PMID:Downregulation of protein kinase C-gamma is independent of a functional kinase domain. 190 48

Isolated interphase lamin C, obtained from Ehrlich ascites tumor cells, was digested by Lys-C endoproteinase, the resulting peptides separated by reversed-phase HPLC and subjected to microsequencing in order to identify phosphorylation sites in interphase and following phosphorylation in vitro by cdc2-kinase, protein kinase C (PKC) and protein kinase A (PKA), respectively. Nuclear lamin C showed partial phosphorylation of Ser392 and Ser409, and possibly Ser407 in interphase. Phosphorylation was increased in response to cdc2-kinase at Ser390 and Ser392 and to PKC at Ser572. The N-terminal peptide (aa 1-32) containing consensus sequences for the 3 kinases was phosphorylated by cdc2-kinase, PKC and PKA. The sequence data suggests that multiple molecular switches via lamina modification control the dynamic behaviour of the nucleoskeleton during the cell cycle.
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PMID:Identification of phosphorylation sites on murine nuclear lamin C by RP-HPLC and microsequencing. 195 8

Rat mast cells purified on a Percoll gradient were challenged with compound 48/80 and protein kinase C activity in the cell pellets and the amount of histamine release into the supernatant was assayed by measuring the incorporation of 32P from [gamma 32P]ATP (adenosine triphosphate) into lysine-rich histone and by the fluorometric technique, respectively. In another series of experiments, rat mast cell granules were isolated in a gradient from sonicated rat mast cells and diphosphoinositide kinase activity was assayed by measuring the incorporation of 32P from [gamma 32P]ATP into triphosphoinositide on oxalic acid-impregnated silica gel plates after the extraction of lipids in acidic condition. Azelastine (A-5610, E-0659) inhibited the histamine release from the cells in parallel with the tendency to inhibit the increased protein kinase C activity in the activated mast cells. Azelastine also inhibited the diphosphoinositide kinase activity in the granules. These inhibitory effects of azelastine on the phosphorylation enzymes in rat mast cells may be involved in the inhibitory mechanism of the mediator release from the cells.
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PMID:Inhibitory effects of azelastine on protein kinase C and diphosphoinositide kinase in rat mast cells. 197 Jul 35

The kinetic mechanism of protein kinase C (PKC) was analyzed via inhibition studies using the product MgADP, the nonhydrolyzable ATP analogue adenosine 5'-(beta,gamma-imidotriphosphate) (MgAMPPNP), the peptide antagonist poly(L-lysine), and several naturally occurring ATP analogues that are produced in rapidly growing cells, i.e., the diadenosine oligophosphates (general structure: ApnA; n = 2-5). By use of histone as the phosphate acceptor, the inhibition of PKC by MgAMPPNP and MgADP was found to be competitive vs MgATP (suggesting that these compounds bind to the same enzyme form), whereas their inhibition vs histone was observed to be noncompetitive. In contrast, the inhibition by poly(L-lysine) appeared competitive vs histone but uncompetitive vs MgATP, which is consistent with a model wherein MgATP binding promotes the binding of poly(L-lysine) or histone. With the diadenosine oligophosphates, the degree of PKC inhibition was found to increase according to the number of intervening phosphates. The diadenosine oligophosphates Ap4A and Ap5A were the most effective antagonists of PKC, with Ap5A being approximately as potent as MgADP and MgAMPPNP. However, as opposed to MgADP and MgAMPPNP, Ap4A and Ap5A appear to act as noncompetitive inhibitors vs both MgATP and histone, suggesting that they can interact at several points in the reaction pathway. These studies support the concept of a steady-state mechanism where MgATP binding preferentially precedes that of histone, followed by the release of phosphorylated substrate and MgADP. Furthermore, these results indicate a differential interaction of the diadenosine oligophosphates with PKC, when compared to other adenosine nucleotides.
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PMID:Kinetic analysis of protein kinase C: product and dead-end inhibition studies using ADP, poly(L-lysine), nonhydrolyzable ATP analogues, and diadenosine oligophosphates. 199 Nov 18

A high Mr synthetase core complex isolated from higher eukaryotes contains aminoacyl-tRNA synthetases specific for arginine, aspartic acid, glutamic acid, glutamine, isoleucine, leucine, lysine, methionine, and proline. Previously, five of the synthetases were shown to be phosphorylated in reticulocytes, and the glutaminyl- and aspartyl-tRNA synthetases were shown to be selectively phosphorylated in response to 8-bromo cAMP (Pendergast, A. M., Venema, R. C., and Traugh, J. A. (1987) J. Biol. Chem. 262, 5939-5942). Exposure of reticulocytes to phorbol 12-myristate 13-acetate stimulates the selective phosphorylation of one synthetase in the complex, glutamyl-tRNA synthetase. Only the glutamyl-tRNA synthetase is modified to a significant extent when the purified complex is phosphorylated in vitro by protein kinase C; up to 0.7 mol of phosphate is incorporated per mol of synthetase. Two-dimensional phosphopeptide mapping shows a single tryptic phosphopeptide, which is identical for the enzyme modified in vitro by protein kinase C or in phorbol 12-myristate 13-acetate-stimulated cells. Phosphorylation in vivo is reproducibly accompanied by a 38 +/- 10% reduction in aminoacylation activity of partially purified glutamyl-tRNA synthetase assayed in vitro. Phosphorylation in vitro has no detectable effect on aminoacylation. This difference may be due to the absence of a required effector molecule which alters activity by interaction with the phosphorylated synthetase. Glutamyl-tRNA synthetase is one of a growing number of translational components, including initiation factors, which are coordinately modified by protein kinase C in response to phorbol 12-myristate 13-acetate.
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PMID:Protein kinase C phosphorylates glutamyl-tRNA synthetase in rabbit reticulocytes stimulated by tumor promoting phorbol esters. 200 62

X-irradiation and the phorbol ester, 12-O-tetradecanoylphorbol-13-acetate (TPA) act in a synergistic manner to increase the yield of transformed C3H10T1/2 cells in vitro. TPA modulated both translocation from the cytosol to the plasma membrane, and down regulation of protein kinase C (PKC) after prolonged (48 h) TPA exposure. N-tosyl-L-phenylalanine chloromethyl ketone (TPCK), antipain, and soybean-derived Bowman-Birk inhibitor, protease inhibitors that suppress transformation of C3H10T1/2 cells, had no effect on these TPA-mediated alterations of PKC activity, suggesting that protease inhibitors suppress TPA-stimulated promotion in vitro via a PKC-independent pathway. Several experiments were performed to determine whether non-toxic concentrations of the PKC inhibitors, N-p-tosyl-L-lysine chloromethyl ketone (TLCK), TPCK, N-(6-aminohexyl)-5-chloro-1-naphthalenesulfonamide (W-7), or 1-(5-isoquinoline-sulfonyl)-2-methyl-piperazine (H-7), modulated the movement of cells from a quiescent state into the cell cycle. TPCK and the combination of H-7 and W-7 lowered DNA synthesis when cells were stimulated to divide by TPA. Because other protease inhibitors that slow transformation in vitro did not have the same suppressive effect on DNA synthesis, the inhibitory pathway that suppresses carcinogenic activity is likely to be different from the suppression of DNA synthesis.
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PMID:Suppression of phorbol ester-enhanced radiation-induced malignancy in vitro by protease inhibitors is independent of protein kinase C. 201 16

Protein kinase C was isolated from bovine heart by chromatography on DEAE-Sephacel, phenyl-Sepharose, poly(L-lysine) agarose, and hydroxylapatite. Estimates based upon enzyme recovery indicate 10-20 nmol/min of protein kinase C activity per gram of bovine ventricular myocardium. Hydroxylapatite column chromatography resolved the preparation into two peaks of calcium- and phospholipid-dependent protein kinase activity. By Western blot analysis, peaks 1 and 2 contained subtypes II (beta 2) and III (alpha), respectively. No cross-reactivity was observed, indicating that separation was complete. Type III, the major subtype detected, was subsequently purified to apparent homogeneity by chromatography on phosphatidylserine (PS) acrylamide. Type II activity could not be recovered following phosphatidylserine affinity chromatography. Phospho amino acid analysis showed that type III autophosphorylated at serine residues, whereas type II autophosphorylated at both serine and threonine residues. Among the various phospholipids tested for activity, PS was the most effective. Both subtypes were activated by 1-stearoyl-2-arachidonylglycerol (SAG) in the presence of phosphatidylserine and calcium. Activation of both subtypes occurred at calcium concentrations of less than 1 microM. In addition to several similarities, these two subtypes showed differences in activation and kinetic properties: type II was activated by cardiolipin, 1,2-and 1,3-dioleoylglycerol, and both cis- and trans-unsaturated fatty acids. Type III was activated to a lesser degree by cardiolipin and showed no response to 1,3-dioleoylglycerol. Type III was activated to a greater extent by 1,2-diacylglycerols and by cis-unsaturated fatty acids. In the presence of PS and SAG, type II exhibited substantial activity in the presence of 1 mM ethylene glycol bis(beta-aminoethyl ether)-N,N,N',N'-tetraacetic acid (EGTA) without added calcium. Activation of types II and III by unsaturated fatty acids was independent of phospholipid and showed a lower apparent calcium affinity than that observed for activation by phosphatidylserine. These results show that cardiac protein kinase C subtypes II and III were functionally distinguishable and may play unique roles in the regulation of cardiac function.
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PMID:Isolation and characterization of the calcium- and phospholipid-dependent protein kinase (protein kinase C) subtypes from bovine heart. 202 25

In the presence of extracellular Ca2+, epinephrine induces a rise in cytoplasmic Ca2+ ([Ca2+]i) that is associated with fibrinogen binding to the platelet surface, platelet aggregation, and enhancement of the thrombin-stimulated [Ca2+]i rise and protein phosphorylation. Whether the [Ca2+]i rise induced by epinephrine results from Ca2+ entry associated with fibrinogen binding to its receptor on the platelet surface, the glycoprotein (gp) IIb-IIIa complex, is unknown. To determine the importance of the occupancy of the gp IIb-IIIa receptor on platelet function after epinephrine administration, we studied the effects of two monoclonal antibodies (M-148 and 7E3) and two synthetic peptide analogues to fibrinogen (synthetic tetrapeptides Arg-Gly-Asp-Ser (RGDS) and dodecapeptide His-His-Leu-Gly-Gly-Ala-Lys-Gln-Ala-Gly-Asp-Val [gamma-(400-411)]), all of which bind to gp IIb-IIIa and inhibit fibrinogen binding and platelet aggregation on the epinephrine-induced rise in [Ca2+]i and enhancement of thrombin's phosphorylation of the 47-kDa substrate of protein kinase C (p47). None of the gp IIb-IIIa ligands significantly enhanced or inhibited the epinephrine-induced [Ca2+]i rise or its augmentation of p47 phosphorylation after thrombin administration; however, the synergistic [Ca2+]i rise that follows addition of both epinephrine and thrombin was reduced by both antibodies and both peptides. Thus ligand binding of gp IIb-IIIa does not influence the epinephrine-induced [Ca2+]i rise or its promotion of protein kinase C activation by thrombin; these events can be dissociated from the synergistic [Ca2+]i rise.
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PMID:Calcium mobilization and glycoprotein IIb-IIIa complex ligands in epinephrine-stimulated platelets. 203 81


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