EC:2.7.11.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.11.1 (protein kinase)
81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Expression of tissue factor (TF) by activated monocytes may initiate thrombotic episodes associated with diseases, such as thrombosis and atherosclerosis. In this study, steps in the regulatory pathways of lipopolysaccharide (LPS)-induced monocyte TF activity and released TNF-alpha in human whole blood were probed for using an array of inhibitors, comprising specific inhibitors of cytosolic phospholipase A(2) (PLA(2)) (AACOCF(3)), secretory PLA(2) (SB-203347), protein kinase (PK) (staurosporine), PKC (GF-109203; BIM), and serine protease (Pefabloc SC), antagonists of thromboxane prostanoid (TP) receptor (R) (SQ-29548), platelet activating factor (PAF) R (BN-52021), leukotriene B(4) R (SC-41930), serotonin R (cyproheptadine), fibronectin/fibrinogen R (RGDS), and finally, creatine phosphate/creatine phosphokinase (CP/CPK) which removes ADP. Whereas when added alone neither of these agents significantly inhibited LPS-induced TF or TNF-alpha, when presented as a reference cocktail comprising all the agents, TF activity and TNF-alpha were reduced by 77% and 49%, respectively. By subsequently testing a series of incomplete inhibitory cocktails equal to the reference except for deleted single agents or combinations of two or three active agents, the inhibitory effect of the reference cocktail could be shown to depend on the presence of the protease inhibitor and the thromboxane A(2) and PAF antagonists.
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PMID:The central role of thromboxane and platelet activating factor receptors in ex vivo regulation of endotoxin-induced monocyte tissue factor activity in human whole blood. 1223 Sep 18

1 The lysophospholipids, lysophosphatidic acid and sphingosine 1-phosphate, have been reported to activate platelets. Here we examined effects of the naturally occurring related sphingosylphosphorylcholine (SPC) on human platelet function. 2 Platelet activation was determined as aggregation, elevation of intracellular Ca(2+) concentrations, surface expression of P-selectin, GP 53, and GP IIb/IIIa neoepitope PAC-1, and of fibrinogen binding to the platelet surface. 3 Platelets were activated by ADP (5 and 20 micro M), the thrombin receptor-activating peptide TRAP-6 (5 and 20 micro M), the thromboxane A(2) mimetic U-46619 (1 micro M) and collagen (20 and 50 micro g ml(-1)) but not by SPC (up to 20 micro M). 4 SPC concentration-dependently (IC(50) approximately 1-10 micro M) inhibited activation of washed human platelets in response to all of the above agonists, with almost complete inhibition occurring at 20 micro M SPC. 5 The SPC stereoisomers, D-erythro SPC and L-threo SPC, exhibited similar concentration-response curves in inhibiting 20 micro M ADP-induced platelet aggregation, suggesting that SPC did not act via specific lysophospholipid receptors. 6 Although SPC slightly activated platelet protein kinase A (as assessed by VASP phosphorylation), this effect could not explain the marked platelet inhibition. Possible protein kinase C inhibition also did not explain the inhibition of platelet activation by SPC. On the other hand, SPC suppressed agonist-induced Ca(2+) mobilization and phospholipase C stimulation. 7 These results indicate that the lysophospholipid SPC is an effective inhibitor of human platelet activation, apparently primarily by uncoupling agonist-activated receptors from their effectors.
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PMID:Sphingosylphosphorylcholine, a naturally occurring lipid mediator, inhibits human platelet function. 1256 68

Peroxisome proliferator-activated receptor (PPAR) alpha is a nuclear receptor implicated in several physiological processes such as lipid and lipoprotein metabolism, glucose homeostasis, and the inflammatory response. PPARalpha is activated by natural fatty acids and synthetic compounds like fibrates. PPARalpha activity has been shown to be modulated by its phosphorylation status. PPARalpha is phosphorylated by kinases such as the MAPKs and cAMP-activated protein kinase A. In this report, we show that protein kinase C (PKC) inhibition impairs ligand-activated PPARalpha transcriptional activity. Furthermore, PKC inhibition decreases PPARalpha ligand-induction of its target genes including PPARalpha itself and carnitine palmitoyltransferase I. By contrast, PKC inhibition enhances PPARalpha transrepression properties as demonstrated using the fibrinogen-beta gene as model system. Finally, PKC inhibition decreases PPARalpha phosphorylation activity of hepatocyte cell extracts. In addition, PPARalpha purified protein is phosphorylated in vitro by recombinant PKCalpha and betaII. The replacement of serines 179 and 230 by alanine residues reduces the phosphorylation of the PPARalpha protein. The PPARalpha S179A-S230A protein displays an impaired ligand-induced transactivation activity and an enhanced trans-repression activity. Altogether, our data indicate that the PKC signaling pathway acts as a molecular switch dissociating the transactivation and transrepression functions of PPARalpha, which involved phosphorylation of serines 179 and 230.
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PMID:The protein kinase C signaling pathway regulates a molecular switch between transactivation and transrepression activity of the peroxisome proliferator-activated receptor alpha. 1513 Dec 57

Recent studies have demonstrated that H(2)O(2) acts as a second messenger of mitogenic signaling and that catalase is under the regulation of PKA and PKC signaling. Here we examined whether catalase binds any mitogenic signaling molecules. Our results indicated that serum stimulation of HeLa, Caco-2, and LiSa-2 cells, but not BJ-1 and primary human bronchial epithelial cells, resulted in catalase binding to Grb2. Whereas serum deprivation, butyrate, and herbimycin-A negatively regulated the binding, an extended culture of confluent Caco-2 cells resulted in binding of an additional but as yet unidentified molecule to the Grb2-catalase complex. Expression of active catalase nearly 15-fold over control level in Tet-off HeLa cells substantially increased binding to Grb2, and this was sensitive to 3-aminotriazole, a specific catalase inhibitor. Furthermore, fibrinogen, fibronectin, and laminin, but not collagen types I to V, hyaluronic acid, elastin, insulin, EGF, IGF-I, PDGF, or NGF, resulted in binding similar to that of serum. A mutation of tyrosine to phenylalanine at 447 abolished the binding capability of catalase to Grb2 in vitro. These results support the view that catalase (447)Tyr-Val-Asn-Val binds Grb2 upon phosphorylation in tumor cells when stimulated with serum or ligands for integrin receptors. This is the first report demonstrating that catalase binds a SH2 domain of the molecule and participates in integrin signaling.
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PMID:Catalase binds Grb2 in tumor cells when stimulated with serum or ligands for integrin receptors. 1518 56

We found that nafamostat mesilate (NM) inhibits platelet aggregation induced by all agonists tested, including ADP, collagen, arachidonic acid, thromboxane A analog, A23187, phorbol 12-myristate 13-acetate (PMA), NaF and thrombin. The IC50 values were in the range of 9.3-17.8 microM. NM inhibited agonists-induced aspirin-treated platelet aggregation at >10 microM, suggesting that the action site lies beyond thromboxane (TXA)2 formation. However, NM inhibited thrombin (0.5 IU/ml)-induced TXB2 formation (IC50 = 1.9 +/- 0.6 microM, mean +/- SD). Intracellular Ca2+ mobilization was also inhibited only when platelets were challenged by thrombin, but the effect was found at NM concentrations >50 microM. This finding suggests that NM reduces the responses to thrombin by inhibiting its proteolytic activity on the platelet thrombin receptor (PAR1). NM did not affect the intracellular cAMP concentration or A-kinase activity. Agonists-induced surface expression of activated glycoprotein (GP)IIb-IIIa was inhibited by 10 microM NM and was completely inhibited by 50 microM NM. Since this inhibitory effect was parallel to the inhibition of platelet aggregation, the main inhibitory mechanism of NM against platelet aggregation seemed to be the suppression of activated GPIIb-IIIa expression, which makes it able to bind fibrinogen.
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PMID:Inhibitory mechanism of human platelet aggregation by nafamostat mesilate. 1680 Oct 94

Atherosclerotic plaque develops at sites of disturbed flow. We previously showed that flow activates endothelial cell integrins, which then bind to the subendothelial extracellular matrix (ECM), and, in cells on fibronectin or fibrinogen, trigger nuclear factor-kappaB activation. Additionally, fibronectin and fibrinogen are deposited into the subendothelial ECM at atherosclerosis-prone sites at early times. We now show that flow activates ECM-specific signals that establish patterns of integrin dominance. Flow induced alpha2beta1 activation in cells on collagen, but not on fibronectin or fibrinogen. Conversely, alpha5beta1 and alphavbeta3 are activated on fibronectin and fibrinogen, but not collagen. Failure of these integrins to be activated on nonpermissive ECM is because of active suppression by the integrins that are ligated. Protein kinase A is activated specifically on collagen and suppresses flow-induced alphavbeta3 activation. Alternatively, protein kinase Calpha is activated on fibronectin and mediates alpha2beta1 suppression. Thus, integrins actively cross-inhibit through specific kinase pathways. These mechanisms may determine cellular responses to complex extracellular matrices.
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PMID:Matrix-specific suppression of integrin activation in shear stress signaling. 1692 57

p38 MAP kinase in human platelets is activated by platelet agonists including thrombin, thromboxane A2 (TxA2), ADP, and others. However, both upstream mechanisms of p38 MAP kinase activation, and their downstream sequelae, are presently controversial and essentially unclear. Certain studies report sequential activation of cGMP-dependent protein kinase (PKG) and p38/ERK pathways by platelet agonists, leading to integrin activation and secretion, whereas others establish an essential role of Src/ERK-mediated TxA2 generation for fibrinogen receptor activation in human platelets. Here, we show that ADP secreted from platelet-dense granules, and subsequent activation of P2Y12 receptors, as well as TxA2 release are important upstream mediators of p38 MAP kinase activation by thrombin. However, p38 MAP kinase activation did not significantly contribute to calcium mobilization, P-selectin expression, alphaIIbbeta3 integrin activation, and aggregation of human platelets in response to thrombin. Finally, PKG activation did not stimulate, but rather inhibited, p38 MAP kinase in human platelets.
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PMID:Thrombin stimulation of p38 MAP kinase in human platelets is mediated by ADP and thromboxane A2 and inhibited by cGMP/cGMP-dependent protein kinase. 1699 May 90

Defective regulation of platelet activation/aggregation is a predominant cause for arterial thrombosis, the major complication of atherosclerosis triggering myocardial infarction and stroke. A central regulatory pathway conveying inhibition of platelet activation/aggregation is nitric oxide (NO)/cyclic GMP (cGMP) signaling by cGMP-dependent protein kinase I (cGKI). However, the regulatory cascade downstream of cGKI mediating platelet inhibition is still unclear. Here, we show that the inositol-1,4,5-trisphosphate receptor-associated cGMP kinase substrate (IRAG) is abundantly expressed in platelets and assembled in a macrocomplex together with cGKIbeta and the inositol-1,4,5-trisphosphate receptor type I (InsP3RI). cGKI phosphorylates IRAG at Ser664 and Ser677 in intact platelets. Targeted deletion of the IRAG-InsP3RI interaction in IRAGDelta12/Delta12 mutant mice leads to a loss of NO/cGMP-dependent inhibition of fibrinogen-receptor activation and platelet aggregation. Intracellular calcium transients were not affected by DEA/NO or cGMP in mutant platelets. Furthermore, intravital microscopy shows that NO fails to prevent arterial thrombosis of the injured carotid artery in IRAGDelta12/Delta12 mutants. These findings reveal that interaction between IRAG and InsP3RI has a central role in NO/cGMP-dependent inhibition of platelet aggregation and in vivo thrombosis.
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PMID:IRAG mediates NO/cGMP-dependent inhibition of platelet aggregation and thrombus formation. 1699 Jun 11

Nitric oxide (NO) is an established regulator of platelet function, although the processes by which NO modulates platelet adhesion are unclear. We studied the importance of Ca(2+) and phosphoinositol-3-kinase (PI3kinase) as targets for NO signalling, in the physiological context of platelet adhesion using adenosine diphosphate (ADP)-stimulated adhesion to immobilised fibrinogen. DPTA-NONOate induced a time and concentration-dependent inhibition of adhesion, and reduced protein tyrosine phosphorylation. The action of NO was cGMP-independent despite activation of the cGMP-signalling cascade, as evidenced by VASP phosphorylation. Furthermore, the cGMP-independent mechanism did not involve PKA. Platelet activation by ADP requires Ca(2+) and PI3kinase-dependent signalling pathways. We examined the effect of NO on these pathways using two approaches. Firstly, we dissected the signalling pathways using the P2Y(1)-receptor antagonist A3P5P, and secondly, directly inhibited Ca(2+) mobilisation and PI3kinase activity. ADP-induced adhesion was reduced but not abolished by A3P5P, suggesting signalling from P2Y(12) can induce adhesion. NO further reduced adhesion in the presence of A3P5P, indicating that NO inhibited adhesion independently of any effects on Ca(2+) mobilisation. Dimethyl bis-(o-aminophenoxy) ethane-tetraacetic acid (BAPTA) and wortmannin both partially inhibited ADP-induced adhesion, but completely abolished adhesion when used in combination, demonstrating that ADP-induced adhesion requires Ca(2+) and PI3kinase-regulated pathways. Combination of either dimethyl-BAPTA or wortmannin with DPTA-NONOate enhanced inhibition of both the Ca(2+) and PI3kinase-dependent pathways when compared to the levels of inhibition with either agent alone. Thus, we demonstrate that NO inhibits alpha(IIb)beta(3)-mediated adhesion, by targeting both Ca(2+) and PI3kinase pathways in a cGMP-independent manner.
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PMID:Inhibition of ADP-induced platelet adhesion to immobilised fibrinogen by nitric oxide: evidence for cGMP-independent mechanisms. 1730 68

Platelet alpha-granules constitute the major rapidly releasable reservoir of thrombospondin-1 in higher animals. Although some fragments and peptides derived from thrombospondin-1 stimulate or inhibit platelet aggregation, its physiologic function in platelets has remained elusive. We now show that endogenous thrombospondin-1 is necessary for platelet aggregation in vitro in the presence of physiologic levels of nitric oxide (NO). Exogenous NO or elevation of cGMP delays thrombin-induced platelet aggregation under high shear and static conditions, and exogenous thrombospondin-1 reverses this delay. Thrombospondin-1-null murine platelets fail to aggregate in response to thrombin in the presence of exogenous NO or 8Br-cGMP. At physiologic concentrations of the NO synthase substrate arginine, thrombospondin-1-null platelets have elevated basal cGMP. Ligation of CD36 or CD47 is sufficient to block NO-induced cGMP accumulation and mimic the effect of thrombospondin-1 on aggregation. Exogenous thrombospondin-1 also reverses the suppression by NO of alphaIIb/beta3 integrin-mediated platelet adhesion on immobilized fibrinogen, mediated in part by increased GTP loading of Rap1. Thrombospondin-1 also inhibits cGMP-mediated activation of cGMP-dependent protein kinase and thereby prevents phosphorylation of VASP. Thus, release of thrombospondin-1 from alpha-granules during activation provides positive feedback to promote efficient platelet aggregation and adhesion by overcoming the antithrombotic activity of physiologic NO.
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PMID:Thrombospondin-1 stimulates platelet aggregation by blocking the antithrombotic activity of nitric oxide/cGMP signaling. 1789 Apr 48

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