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)

The role of protein kinase C (PKC) in the regulation of phosphatidylcholine-hydrolyzing phospholipase D (PLD) was investigated. In membranes from Chinese hamster lung fibroblasts that had been incubated with [14C]choline to label endogenous phosphatidylcholine, phorbol 12-myristate 13-acetate (PMA) failed to stimulate production of [14C]choline. However, stimulation was observed if fibroblast cytosolic fraction or PKC partially purified from this fraction was added. When incubated with membranes in the presence of PMA, pure PKC from rat brain stimulated [14C]choline production in a concentration-dependent manner, with a maximal 2-3-fold effect. PMA similarly stimulated [14C]phosphatidylpropanol formation from propanol using membranes from [14C]myristic acid-prelabeled cells, confirming the activation of PLD. None of the effects described required exogenous ATP. To probe the role of phosphorylation in the PKC effect, we included high concentrations of apyrase in the assay. This ATPase had no effect on the ability of PKC to activate PLD, but under exactly the same conditions, it eliminated autophosphorylation of PKC. The results provide conclusive evidence for the involvement of PKC in the activation of PLD and suggest that ATP-dependent phosphorylation is not required.
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PMID:Activation of phospholipase D by protein kinase C. Evidence for a phosphorylation-independent mechanism. 155 64

The effect on platelet activation of monoclonal antibodies directed against common determinants of the HLA class I heavy chain molecule was studied. Cross-linking W6/32, an anti-HLA class I of IgG2a subclass, led to platelet activation. Two other antibodies of the same subclass did not have this effect on platelets. The lack of activity of the F(ab')2 fragments suggests that the activation signal is mediated by the platelet Fc receptor (Fc gamma RII). Indeed, except for a higher sensitivity of W6/32 to aspirin and apyrase, activations by cross-linking IV-3 (an anti-Fc gamma RII) and W6/32 are similar at the level of InsP3 formation, calcium mobilization, pH modifications, and activation of protein kinase C and myosin kinase. When HLA class I molecules and Fc gamma RII are cross-linked together, platelet activation occurs. This is not observed when a control IgG2a is substituted for W6/32 or when CD9 and Fc receptor are cross-linked together. This suggests that HLA class I molecules and Fc gamma RII synergize to activate platelets.
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PMID:Platelet activation by cross-linking HLA class I molecules and Fc receptor. 158 37

We analyzed the effects of ticlopidine on platelet aggregation and on microparticle (MP) formation when platelets were exposed to a monoclonal anti-CD9 antibody (NNKY1-19) in vitro. Even when NNKY1-19-induced platelet aggregation was completely inhibited by preincubation with anti-GPIIb/IIIa antibody or Arg-Gly-Asp-Ser, or by using washed platelets from a Glanzmann's thrombasthenia patient, the formation of MP was still observed. Prostaglandin E1 and protein kinase C antagonists (H-7 and staurosporine) inhibited both NNKY1-19-induced aggregation and MP formation. Ticlopidine or aspirin plus apyrase scarcely affected NNKY1-19-induced platelet aggregation, except to prolong the lag time. However, ticlopidine significantly inhibited MP formation (p less than 0.01). These results suggest that ticlopidine inhibits NNKY1-19-induced MP formation by a different mechanism to that of the other antagonists, and that this mechanism is unrelated to the inhibition of platelet aggregation.
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PMID:Effects of ticlopidine on monoclonal anti-CD9 antibody-induced platelet aggregation and microparticle generation. 160 45

Experiments were performed to elucidate the role of cyclic guanosine monophosphate (cGMP) on platelet activation induced by protein kinase C (PKC) activators and calcium ionophore. Human platelets were pretreated with acetylsalicylic acid and with hirudin and apyrase. Aggregation and ATP secretion in response to the PKC activators 4 beta-phorbol 12-myristate 13-acetate (PMA) and 1-oleoyl 2-acetylglycerol (OAG) were inhibited by the nitrovasodilator sodium nitroprusside (SNP), an activator of guanylate cyclase, and by 8-bromo-cyclic GMP (8-Br-cGMP). The experiments were performed in the presence of M&B 22948, an inhibitor of cGMP phosphodiesterase. SNP and 8-Br-cGMP also inhibited platelet aggregation and secretion evoked by the ionophore ionomycin. In fura-2 loaded platelets SNP did not affect basal cytosolic Ca2+ level nor the rise induced by low concentrations of ionomycin, both in the presence and absence of extracellular Ca2+. The phosphorylation of the 47 and 20 kDa protein induced by ionomycin or PMA were not significantly decreased by SNP or 8-Br-cGMP. The present results suggest that cGMP is able to inhibit both the PKC and the Ca(2+)-dependent pathways leading to platelet activation by interfering, similarly to cAMP, with processes following protein phosphorylation, close to the effector systems.
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PMID:Platelet activation by diacylglycerol or ionomycin is inhibited by nitroprusside. 165 43

Platelets adhere to artificial surfaces in the initial stage of thrombus formation, but the subsequent steps in signal transduction that lead to platelet activation by artificial surfaces are not understood. When 0.325-micron diameter beads composed of a hydrophobic polymer, polymethylmethacrylate (PMMA), were added to gel-filtered aequorin-loaded platelets suspended in media containing Ca2+, the platelets aggregated; addition of fibrinogen was not required. Platelet aggregation was preceded by an increase in cytoplasmic Ca2+ and was accompanied by phosphorylation of the 47-Kd substrate of protein kinase C (PKC), 5-hydroxytryptamine (5-HT) release, and accumulation of phosphatidic acid. All these effects were partially inhibited by apyrase and aspirin. Monoclonal antibodies (MoAbs) 7E3 and M148 and the synthetic peptides RGDS and fibrinogen gamma chain fragment 400-411, all of which bind to the platelet fibrinogen receptor glycoprotein IIb-IIIa (GPIIb-IIIa) and inhibit fibrinogen binding, prevented PMMA-induced aggregation but did not inhibit the Ca2+ increase. Chymotrypsin-treated platelets aggregated after addition of fibrinogen, but not PMMA. We conclude that platelets interact initially with PMMA at membrane sites other than those required for fibrinogen binding, leading to activation of membrane phospholipases and PKC, an increase in cytoplasmic Ca2+, release of 5-HT, ADP, and fibrinogen from storage granules, and to platelet aggregation.
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PMID:Platelet activation by a synthetic hydrophobic polymer, polymethylmethacrylate. 191 61

We detected an autoantibody which activated normal platelets in a patient with immune thrombocytopenic purpura and investigated the mechanism by which this autoantibody mediated platelet activation. The patient's IgG induced platelet aggregation and ATP secretion in normal platelet-rich plasma (PRP). IgG-induced aggregation was inhibited by aspirin (ASA), apyrase, a protein kinase C (PKC) inhibitor and two anti-platelet glycoprotein (GP) IIb/IIIa monoclonal antibodies. The increase of aequorin-detected intraplatelet Ca2+ induced by the patient's IgG was extremely slight. Phosphorylation of a 40 kDa protein was induced by the patient's IgG without any obvious phosphorylation of a 20 kDa protein, and was inhibited by a PKC inhibitor but not by ASA. With ASA-treated normal PRP, the patient's IgG failed to induce aggregation itself, but enhanced ADP- or STA2-induced aggregation. Western blotting and immunoprecipitation experiments showed that the patient's IgG reacted to a protein of 36 kDa. These results suggest that the platelet activation induced by this autoantibody depended on both the selective activation of PKC and the slight Ca2+ mobilization induced by thromboxane A2 synthesis, while the aggregation depended on secretion induced by the synergistic action of the above two mechanisms and was mediated through GP IIb/IIIa.
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PMID:Synergistic action in platelet activation induced by an antiplatelet autoantibody in ITP. 204 86

The CD9 molecule is a 24 kDa surface-membrane glycoprotein present on platelets and a variety of haematopoetic and non-haematopoetic tissues. In the present study we utilized specific inhibitors of thromboxane A2 (TxA2) formation (aspirin), protein kinase C [H-7 [1-(5-isoquinolinesulphonyl)-2-methylpiperazine]] and autocrine stimulation by secreted ADP (apyrase) to modify platelet activation by a monoclonal antibody ALB-6 to the CD9 antigen. This activation is only partially inhibited by aspirin alone but, in combination with either H-7 or apyrase, more than 50% inhibition of platelet aggregation and secretion was observed. This combination of inhibitors was also required to inhibit effectively the phosphorylation of myosin light chain and the 47 kDa substrate of protein kinase C. Intracellular Ca2+ flux monitored by the fluorescent dye fura-2 showed that this was almost completely mediated by the aspirin-sensitive TxA2 pathway. We suggest that the aspirin-insensitive pathway is primarily mediated by phospholipase C formation of diacylglycerol to activate protein kinase C. The inhibition by apyrase suggests a strong dependency on autocrine stimulation by secreted ADP to fully activate both phospholipase C and express fibrinogen-binding sites mediating platelet aggregation. This alternate pathway of phospholipase C activation by ALB-6 may be mediated by cytoplasmic alkalinization [monitored by SNARF-1 (5'(6')-carboxy-10-bismethylamino-3-hydroxy-spiro-[7H- benzo[c]xanthine-1',7(3H)-isobenzofuran]-3'-one) fluorescence of the dye]. Both activation pathways are dependent on intact antibodies, since F(ab')2 fragments of SYB-1, a monoclonal antibody against the CD9 antigen with activation characteristics identical with those of ALB-6, do not elicit activation. Besides thrombin, collagen is another physiological agonist shown to induce aspirin-insensitive activation. Similarities to ALB-6 in collagen sensitivity to apyrase in combination with aspirin inhibitors were noted with respect to aggregation and secretion, as well as a complete block of Ca2+ flux by aspirin. However, it is unlikely that collagen activation is mediated by the CD9 antigen, since SYB-1 F(ab')2 fragments had no effect on collagen activation and aspirin also completely blocked the alkalinization response to collagen, in contrast with ALB-6.
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PMID:Stimulus-response coupling in human platelets activated by monoclonal antibodies to the CD9 antigen, a 24 kDa surface-membrane glycoprotein. 231 2

Aspirin-pretreated, 32P-prelabeled, washed human platelets resuspended in a buffer containing apyrase and 2% plasma were exposed to epinephrine and the Ca2+ ionophore A23187. Epinephrine potentiated platelet aggregation (not secretion), the production of [32P]phosphatidic acid and myosin light chain phosphorylation induced by A23187. No phosphorylation of the 40 kDa protein, the substrate of protein kinase C, was observed. We conclude that G1-protein activation evoked by epinephrine and Ca2+ mobilization caused by A23187 represents a novel synergism for platelet aggregation and that protein kinase C activation, under these conditions is not needed for platelet aggregation.
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PMID:Epinephrine and the Ca2+ ionophore A23187 synergistically induce platelet aggregation without protein kinase C activation. 249 53

The mechanism through which human blood platelets interact with gram-negative bacteria with well-defined structural variations in endotoxic lipopolysaccharide was studied. Secretion of 14C-serotonin and aggregation of platelets separated from plasma proteins were observed on challenge with rough mutant Re595 of Salmonella minnesota possessing a glycolipid outer layer composed of Lipid A and 2-keto-3-deoxyoctonate (KDO) but lacking heptose phosphate in the core and O-polysaccharide in its outer portion. Both 14C-serotonin secretion and platelet aggregation were concentration-dependent, with a half-maximum response at the ratio of one bacterial colony-forming unit (CFU) to two platelets. The aggregation of human platelets induced by mutant Re595 was divalent cation-dependent and required secretion of ADP and fibrinogen from platelet storage granules because it was inhibited by chelators, by the ADP-splitting enzyme apyrase, and by monospecific antifibrinogen Fab fragments. The synthetic peptide analog of the platelet receptor recognition site on the gamma chain of fibrinogen, gamma 400-411, inhibited platelet aggregation induced by mutant Re595 (IC50 160 mumol/L), whereas serotonin secretion was unaffected. Tetrapeptide, RGDS, analogous to human fibrinogen alpha chain (alpha 572-575) and to the cell adhesion site of fibronectin, also inhibited aggregation induced by mutant Re595 (IC50 60 mumol/L). Secretion of 14C-serotonin was preceded by a very rapid phosphorylation of a platelet protein of mol wt 47,000, which is associated with protein kinase C activation. Myosin light chain (mol wt 20,000) was also phosphorylated. Both phosphoproteins were dephosphorylated while secretion was reaching maximum. Furthermore, release of 3H-arachidonic acid from platelet phospholipids and generation of thromboxane B2 via the cyclooxygenase pathway were observed. Inhibition of this pathway with acetylsalicylic acid (10(-4) mol/L) or indomethacin (5 X 10(-4) mol/L) reduced 14C-serotonin secretion and platelet aggregation. The role of Lipid A in the interaction of mutant Re595 with human platelets was deduced from the inhibitory effect of the Lipid A-binding protein present in Limulus amebocyte lysate. Likewise, polymyxin B, known to complex with Lipid A, was inhibitory. The reactivity of mutant Re595 toward platelets was attenuated by mild acid hydrolysis, during which KDO was dissociated from the glycolipid, and by alkaline hydrolysis, which breaks ester-linked fatty acids in Lipid A. In contrast to mutant Re595, strain S218 of S minnesota bearing "complete" endotoxic lipopolysaccharide did not induce secretion and aggregation of human platelets.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Mechanism of human platelet activation by endotoxic glycolipid-bearing mutant Re595 of Salmonella minnesota. 376 28

Washed human platelets prelabeled with [14C]arachidonic acid and then exposed to the Ca2+ ionophore A23187 mobilized [14C]arachidonic acid from phospholipids and formed 14C-labeled thromboxane B2, 12-hydroxy-5-8,10-heptadecatrienoic acid, and 12-hydroxy-5,8,10,14-eicosatetraenoic acid. Addition of phorbol myristate acetate (PMA) by itself at concentrations from 10 to 1000 ng/ml did not release arachidonic acid or cause the formation of any of its metabolites, nor did it affect the metabolism of exogenously added arachidonic acid. When 1 microM A23187 was added to platelets pretreated with 100 ng of PMA/ml for 10 min, the release of arachidonic acid, and the amount of all arachidonic acid metabolites formed, were greatly increased (average 4.1 +/- 0.5-fold in eight experiments). This effect of PMA was mimicked by other stimulators of protein kinase C, such as phorbol dibutyrate and oleoyl acetoyl glycerol, but not by 4-alpha-phorbol 12,13-didecanoate, which does not stimulate protein kinase C. However, phosphorylation of the cytosolic 47-kDa protein, the major substrate for protein kinase C in platelets, was produced at lower concentrations of PMA and at a much higher rate than enhancement of arachidonic acid release by PMA, suggesting that 47-kDa protein phosphorylation is not directly involved in mobilization of the fatty acid. PMA also potentiated arachidonic acid release when stimulation of phospholipase C by the ionophore (which is due to thromboxane A2 and/or secreted ADP) was blocked by aspirin plus ADP scavengers, i.e. apyrase or creatine phosphate/creatine phosphokinase. Increased release of arachidonic acid was attributable to loss of [14C]arachidonic acid primarily from phosphatidylcholine (79%) with lesser amounts derived from phosphatidylinositol (12%) and phosphatidylethanolamine (8%). Phosphatidic acid, whose production is a sensitive indicator of phospholipase C activation, was not formed. Thus, the potentiation of arachidonic acid release by PMA appeared to be due to phospholipase A2 activity. These results suggest that diacylglycerol formed in response to stimulation of platelet receptors by agonists may cooperatively promote release of arachidonic acid via a Ca2+/phospholipase A2-dependent pathway.
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PMID:Phorbol esters and oleoyl acetoyl glycerol enhance release of arachidonic acid in platelets stimulated by Ca2+ ionophore A23187. 393 Apr 96


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