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)

Protein tyrosine kinase (PTK) blockers (tyrphostins) inhibit in a dose-dependent fashion thrombin-induced aggregation and serotonin release with IC50 values in the 10-35 microM concentration range. The inhibition of thrombin-induced aggregation correlates with their potency in inhibiting phosphorylation of proteins on tyrosine residues. Using metabolically 32P-labelled human platelets, it was found that the tyrphostins have no effect on the decrease in [32P]phosphatidylinositol bisphosphate but prevent the replenishment of [32P]polyphosphoinositide. Tyrphostins decreased [32P]phosphatidic acid production induced by thrombin, although never by more than 50%, and only delayed the peak of diacylglycerol, suggesting that phospholipase C was still activated. Tyrphostins inhibited the thrombin-elicited early phosphorylation of p43 and p20, substrates for protein kinase C (PKC) and myosin light chain kinase, respectively, at short times of activation. This inhibition, however, was overcome after 1 min of stimulation with thrombin. Tyrphostin AG213 also inhibited platelet aggregation and tyrosine protein phosphorylation induced by phorbol myristate acetate (PMA), but did not inhibit pleckstrin phosphorylation. These results suggest that thrombin induces the phosphorylation of proteins on tyrosine residues which most probably results in the activation of phosphoinositide kinases. The ability of tyrphostins to inhibit phosphorylation of p43 and p20 when induced by thrombin but not when induced by PMA confirms that PTKs may be involved subsequent to PKC activation.
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PMID:Inhibition of platelet activation by tyrosine kinase inhibitors. 138 25

The mechanism by which an agonist, binding to a cell surface receptor, exerts an effect on events in the nucleus is not known. We have previously shown (Leach, K. L., Ruff, V. A., Wright, T. M., Pessin, M. S., and Raben, D. M. (1991) J. Biol. Chem. 266, 3215-3221) that alpha-thrombin treatment of IIC9 cells results in increased levels of cellular 1,2-diacylglycerol (DAG) and activation of protein kinase C (PKC). Here, we have examined whether changes in nuclear PKC and nuclear DAG also are induced following alpha-thrombin treatment. IIC9 cells were treated with 500 ng/ml alpha-thrombin, and nuclei were then isolated. Western blot analysis using isozyme-specific antibodies demonstrated the presence of PKC alpha, but not PKC epsilon or zeta in the nuclei of cells treated with either phorbol 12-myristate 13-acetate or alpha-thrombin. The increase in nuclear PKC alpha levels was accompanied by a 10-fold increase in nuclear PKC specific activity and stimulated phosphorylation of at least six nuclear proteins. The rise in nuclear PKC levels occurred rapidly and reached a maximum at 30-60 s, which was followed by a decline back to the control level over the next 15 min. In addition, alpha-thrombin treatment resulted in an immediate rise in DAG mass levels in the nuclear fractions. Kinetic analysis indicated that a maximum increase in DAG levels occurred 2.5-5 min after the addition of alpha-thrombin and remained elevated for at least 30 min. In cells labeled with [3H]myristic acid, alpha-thrombin treatment induced an increase in radiolabeled nuclear diglycerides, suggesting that the stimulated nuclear DAGs are derived, at least in part, from phosphatidylcholine. Our results suggest that increases in both nuclear DAG levels and PKC activity following alpha-thrombin treatment may play a role in mediating thrombin-induced nuclear responses such as changes in gene expression and cellular proliferation.
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PMID:Alpha-thrombin stimulates nuclear diglyceride levels and differential nuclear localization of protein kinase C isozymes in IIC9 cells. 140 Apr 91

Thrombin, the key regulatory protein of hemostasis, is a potent stimulus for endothelial cell activation, a process implicated in a variety of ischemic, thrombotic, and inflammatory vascular disorders. Activation of the thrombin receptor requires a novel mechanism of receptor proteolysis generating a tethered receptor ligand. Synthetic peptides whose sequences are identical to this newly exposed receptor NH2-terminus reproduce thrombin effects on human and bovine endothelial cell activation. Receptor cleavage by catalytically active alpha-thrombin is tightly coupled to a PI-PLC, with resultant generation of IP3 and DAG, increases in [Ca2+]i, and translocation of PKC (Fig. 3). Both the increase in [Ca2+]i and PKC activation are required for thrombin-stimulated PLA2 and PLD activity, PGI2 synthesis, and barrier dysfunction, the latter occurring as the result of Ca2+ and PKC effects on specific cytoskeletal protein elements and other contractile proteins (Fig. 3). Further investigations are ongoing to identify more clearly not only the precise biochemical intermediates involved in the endothelial cell response to thrombin but also the specific protein kinase systems involved in thrombin-mediated signal transduction in vascular endothelium.
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PMID:Molecular mechanisms of thrombin-induced human and bovine endothelial cell activation. 140 26

The effect of platelet pretreatment with moderate amounts of 1,2-dioctanoylglycerol on subsequent thrombin-induced activation and its correlation with the degree of protein phosphorylation is studied. Protein kinase C preactivation (treatment with 1 microM dioctanoylglycerol for 20 min) significantly reduces thrombin-promoted platelet aggregation, cytosolic calcium-rise, ATP-secretion and, albeit to a lesser extent, protein phosphorylation. Exposure of platelets to dioctanoylglycerol brings about a transient phosphorylation of a 47 kDa protein and a slight but more persistent phosphorylation of proteins of approximate molecular mass 26 and 68 kDa. It is hypothesized that the latter phosphoproteins are responsible for the inhibition of the thrombin-promoted platelet activation. Agonist-evoked aggregation is more affected by a long (20 min) rather than a short (1 min) pretreatment with dioctanoylglycerol, showing no correlation with the phosphorylation of the major substrates of protein kinase C.
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PMID:Inhibition of thrombin-induced platelet activation by dioctanoylglycerol pretreatment is not correlated with the 47 kDa protein phosphorylation. 140 47

Modulation of immunoreactive endothelin-1 (IR-ET-1) production by vasoactive substances was investigated in cultured endothelial cells (EC) derived from capillaries and microvessels of human brain. Peptides, catecholamines, thrombin, protein kinase C-activating phorbol ester, and calcium ionophore enhanced the secretion of IR-ET-1. The known vasoconstrictive peptides, angiotensin II (Ang II) and arginine-vasopressin (AVP) dose-dependently stimulated the endothelial secretion of IR-ET-1. The angiotensin and vasopressin-inducible production of IR-ET-1 was completely inhibited by their respective receptor antagonists [Sar1, Ala8]-angiotensin II and [1-6 (beta-mercapto-beta,beta-cyclopentamethylene propionic acid), 2-O-methyl-tyrosine]. The results indicate that the peptide-stimulated secretion of IR-ET-1 is receptor-mediated in EC which have specific angiotensin II and arginine-vasopressin receptors. These findings represent the first demonstration of IR-ET-1 production by capillary and microvascular endothelium of human brain.
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PMID:Secretion of immunoreactive endothelin-1 by capillary and microvascular endothelium of human brain. 140 66

Sodium azide completely inhibits the serotonin release induced by ADP, arachidonic acid and the thromboxane A2 mimetic U46619, but does not have any effect on the activation by PMA. Collagen and thrombin are inhibited when used at low concentrations, but not at high concentration. This pattern of activation suggests that the inhibition by azide is not a metabolic inhibition. The antagonism of U46619-induced secretion was further studied and was shown to be non-competitive. It is selective for certain components of the U46619 stimulus-response coupling: aggregation, serotonin secretion and the activation of protein kinase C are completely or almost completely inhibited by 300 microM sodium azide. Shape change, calcium elevation, cytoplasmic alkalinization and phosphorylation of myosin light chain are only partially modified. This suggests that azide may specifically inhibit one of the different forms of thromboxane A2 receptors present in platelets.
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PMID:Low concentrations of sodium azide specifically inhibit a thromboxane A2 pathway in human platelets. 141 87

Platelets are released into the peripheral circulation from the bone marrow where they arise as fragments of megakaryocyte cytoplasm. To characterize the effects of platelet agonists on megakaryocytes, we examined calcium signaling and desensitization to thrombin, the thromboxane A2 (TxA2) mimetic (15S)-hydroxy-11 alpha,9 alpha-(epoxymethano)prosta-5Z,13E-dienoic acid (U46619), and platelet-activating factor (PAF) in cultured CHRF-288-11 megakaryocytic cells. Initially, we compared agonist-stimulated calcium transients in fura-2-loaded CHRF-288-11 cells and human platelets. The 50% effective concentration values for the agonists to increase free cytosolic calcium were as follows: thrombin (0.11 +/- 0.02 U/ml in CHRF, 0.19 +/- 0.03 U/ml in platelets), U46619 (147 +/- 33 nM in CHRF, 157 +/- 5 nM in platelets), and PAF [15 +/- 2 nM in CHRF, 16 +/- 2 nM in platelets (n = 4 each)]. CHRF-288-11 thrombin, TxA2, and PAF receptors were demonstrated to be coupled to phospholipase C because each of the agonists stimulated phosphatidylinositol hydrolysis in myo-[3H]inositol-loaded CHRF-288-11 cells and pharmacological inhibition of phospholipase C-blunted agonist-stimulated calcium signaling. CHRF-288-11 cells exposed to the three agonists for 1 h showed different patterns and extent of homologous and heterologous desensitization. Protein kinase C activation appeared to be necessary but not sufficient for desensitization because 1) activation of protein kinase C with phorbol 12-myristate 13-acetate inhibited the calcium responses to all three agonists, 2) inhibition of protein kinase C with staurosporine attenuated subsequent desensitization to each agonist, and 3) each agonist increased protein kinase C activity in CHRF-288-11 cell homogenates.
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PMID:Differential megakaryocytic desensitization to platelet agonists. 141 71

The U937 human monocyte-macrophage cell line was used to examine the effect of thrombin, an ill-defined chemoattractant, on the polymerization of actin, a process essential for cell motility. In differentiated macrophage-like U937 cells, thrombin (0.5-50 units/ml) caused a rapid dose-dependent increase in the formation of filamentous (F-) actin, detected by the staining of F-actin with the fluorescent toxin, 7-nitrobenz-2-oxa-1,3-diazole-phallacidin. In contrast with other chemoattractants such as N-formylmethionyl-leucylphenylalanine or C5a, actin polymerization in response to thrombin occurred via a pertussis-toxin-insensitive G1-(inhibitory G-protein) independent signalling pathway. Further, this response was not affected by the Ca2+ chelator EGTA or by the specific protein kinase C (PKC) inhibitor RO-31-8220. The response to thrombin was not mimicked by the Ca2+ ionophore ionomycin or by the direct PKC activator phorbol 12-myristate 13-acetate. The thrombin response was, however, inhibited by the non-specific protein kinase inhibitor staurosporine. The present results suggest that in U937 cells thrombin stimulates the formation of F-actin via a signalling pathway independent of (i) the activation of PKC, (ii) the mobilization of intracellular Ca2+ and (iii) the activation of Ca(2+)-dependent protein kinases, but dependent on the activation of an undefined staurosporine-sensitive protein kinase.
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PMID:Thrombin promotes actin polymerization in U937 human monocyte-macrophage cells. Analysis of the signalling mechanisms mediating actin polymerization. 141 54

A dose-dependent effect of magnesium on the inhibition of platelet aggregation and release of ATP from dense granules was observed in human platelets (in whole blood, platelet-rich plasma, or washed platelets) against various aggregation agents (ADP, U46619, collagen, or thrombin). The synthesis and release of the proaggregatory cyclooxygenase (CO) and lipoxygenase (LO) products, thromboxane A2 (TXA2) and 12-hydroxyeicosatetraenoic acid (12-HETE), respectively, in platelets were also inhibited by Mg in a dose-dependent manner (IC50 4 to 6 mmol/L). These Mg-mediated activities were further enhanced when platelets were preincubated with insulin (100 microU/mL). The effect of extracellular Mg on the change of intracellular calcium concentration ([Ca2+]i) was assessed using Fura-2/AM loaded cells in the presence or absence of extracellular Ca. Thrombin-stimulated influx of Ca ions decreased from 194 +/- 30 nmol/L to 156 +/- 21 nmol/L in the presence of 5 mmol/L Mg and to 111 +/- 16 nmol/L in 10 mmol/L Mg. However, the intracellular Ca release (as determined in the presence of 5 mmol/L EGTA) was not affected by Mg. The intracellular Ca-dependent protein kinase C and myosin light chain kinase activities on the phosphorylation of endogenous p47 and p20 proteins studied after 2 min of thrombin addition decreased only 10 to 25% in the presence of 5 to 10 mmol/L Mg. Similar results were obtained when EGTA was added prior to the initiation of protein phosphorylation. We conclude that Mg can dose dependently inhibit a wide variety of agonists on platelet aggregation. Furthermore, insulin can potentiate the inhibitory effects of Mg on platelet activation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of extracellular magnesium on platelet activation and intracellular calcium mobilization. 141 32

Using the fluorescent probe, BCECF, the changes in intracellular pH (pHi) in rat peritoneal mast cells were studied. alpha-Thrombin (0.1 nM) induced biphasic changes in pHi which consisted in a temporary decrease in pH with its subsequent steady increase due to the Na/H exchange activation which was inhibited by EIPA and controlled by extracellular Na+. The biphasic changes in pHi induced by DIP-alpha-thrombin (0.1 pM-1 nM), a catalytically inactive form with an intact recognition site, were similar to those of alpha-thrombin, whereas beta/gamma-thrombin (10-1000 pM), a catalytically active form characterized by structural disturbances in the recognition site, was able to induce only the initial phase of acidification. The thrombin recognition site modulators, alpha 1-thymosin and heparin, blocked the ability of the enzyme to induce the alkalinization of pHi. Nigericin stimulated the Na/H-exchange in mast cells. The rate of the Na/H-exchange activation determined with nigericin, decreased with an increase in the alpha-thrombin dose from 0.1 pM up to 10 nM. Activation of protein kinase C (PKC) in mast cells by PMA used at 1 nM and 10 nM led to the alkalinization of the cytoplasm as a result of the Na/H-exchange activation blocked by EIPA. The PKC inhibitor, H-7, suppressed the pHi increase induced by both PMA and alpha-thrombin. The alpha-thrombin-induced acidification of the cytoplasm was completely blocked by SITS in Ca(2+)-free media, whereas in media with Ca2+ SITS inhibited the pHi decline. Acidification of the cytoplasm by thrombin seems to be due to both Ca2+ influx and activation of Cl- fluxes. It is concluded that the observed activation of the Na/H-exchange by thrombin is induced by a cascade of intracellular reactions involving PKC.
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PMID:[Activation of Na/H exchange by thrombin in peritoneal mast cells]. 142 May 91


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