EC:3.4.21.5 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.5 (thrombin)
33,306 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The activation of the matrix metalloproteinase progelatinase A (MMP-2) has been of keen interest because an increase in MMP-2 activity has been implicated in disease states such as cancer and atherosclerosis. Activation of MMP-2 occurs on the surface of specific cell types in two steps. In the first step, primary cleavage of MMP-2 by a membrane-type matrix metalloproteinase generates an intermediate. A secondary cleavage and activation of the intermediate is thought to occur autocatalytically. Previous studies have shown that thrombin can also activate progelatinase A in the presence of endothelial cells. We show that this cell-dependent mechanism of MMP-2 activation also occurs with THP-1 cells and involves binding of thrombin to thrombomodulin present on the cell surface and generation of the anti-coagulant protein, activated protein C. We demonstrate that activated protein C is directly responsible for activation and cleavage of the gelatinase A intermediate. This work contributes new mechanistic insights into the activation of MMP-2 and provides a novel link between matrix metalloproteinase activation and anti-coagulation.
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PMID:Thrombin-thrombomodulin activation of protein C facilitates the activation of progelatinase A. 1129 49

The enhanced extrinsic coagulation in response to inflammation could contribute to disseminated intravascular coagulation, often manifesting cardiovascular complications. The complex mechanism remains unclear and effective management is not well established. The ability of protamine to offset bacterial endotoxin (LPS)-induced tissue factor (TF)-initiated extrinsic coagulation was demonstrated in human peripheral blood monocytes and cultured human leukaemia THP-1 monocytes, which was consistent with the inhibition of rabbit brain thromboplastin (rbTF) procoagulant activity in a cell-free in vitro model. Protamine significantly prolonged prothrombin time, further confirming the downregulation of the extrinsic pathway. However, thrombin time remained unaltered. Chromogenic assays were performed to dissect the extrinsic pathway, identifying inhibitory site(s). Protamine significantly inhibited factor VII (FVII) activation but not the dissected FX activation. The amidolytic activities of FVIIa and FXa were unaffected. The inhibited FVII activation in the presence of protamine was confirmed by the diminished FVIIa formation on Western blot analyses. Protamine preferentially inhibited TF-catalysed FVII activation, downregulating the extrinsic cascade. Protamine could be of anticoagulant significance in the management of the extrinsic hypercoagulation.
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PMID:Protamine inhibits tissue factor-initiated extrinsic coagulation. 1170 41

We have characterised the Procoagulant activity (PCA) of six well-established cell lines by assays of tissue factor (TF), thrombin and FXa generation, flow cytometry using Annexin V, and by binding studies with Factors VIII and IXa. The monocytic (THP-1 & U937) and promyelocytic (NB4) cells expressed high concentrations of TF antigen and activity, whereas TF in the lymphocytic cells (Molt 4, Jurkat & Nalm 6) was very low or absent. However the T-lymphoblastoid cells (Molt 4 & Jurkat) promoted the generation of large amounts of thrombin despite their low TF content, and these cells were also the most active in supporting Factor Xa generation. Molt 4 cells bound Factors VIII and IXa with high capacity and their activity was inhibited by Annexin V. These results indicate that the PCA of T-lymphoblastoid lines is due to expression of negatively charged phospholipids. Flow cytometry studies showed Annexin V binding to the major population of nonapoptotic Molt 4 cells and the PCA of Molt 4 was not increased when apoptosis was induced by staurosporine, indicating that PCA is independent of apoptotic status.
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PMID:Procoagulant activity of T lymphoblastoid cells due to exposure of negatively charged phospholipid. 1252 68

Thrombomodulin-protein C pathway is a major anti-thrombotic mechanism present in endothelial cells (EC), and an important modulator of inflammation. Peroxisomal proliferator activated receptor-gamma (PPARgamma) expressed in monocytes/macrophages may have a role in cell differentiation. Since the expression of thrombomodulin (TM) by monocytes is upregulated during differentiation into macrophages, we investigated the effect of pioglitazone, a thiazolidinedione (TZD) that is a synthetic ligand of PPARgamma, on the expression of TM by a human monocyte/macrophage cell line; human acute monocytic leukemia (THP-1) cells. Pioglitazone dose-dependently upregulated TM antigen expression by THP-1 cells accompanied by an upregulation of TM cofactor activity for thrombin-dependent protein C activation. Thrombomodulin mRNA expression in THP-1 cells was also upregulated by pioglitazone, whereas tissue factor (TF) mRNA expression was not induced at all. Treatment cells with a natural PPARgamma ligand, 15-deoxy-delta12,14-prostaglandin J(2) (PGJ2), also enhanced TM protein expression. PGF(2alpha) an agent known to inactivate PPARgamma, diminished the stimulatory effect of pioglitazone and PGJ2 on TM protein expression. In contrast, pioglitazone had no effect on TM antigen expression by human umbilical vein ECs. These results suggest that PPARgamma activation in macrophages may counteract potentially prothrombotic and putative inflammatory properties in activated macrophages.
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PMID:Thrombomodulin expression by THP-1 but not by vascular endothelial cells is upregulated by pioglitazone. 1261 86

The small GTPase Rap1, which is activated by a large variety of stimuli, functions in the control of integrin-mediated cell adhesion. Here we show that in human megakaryocytes and several other commonly used hematopoietic cell lines such as K562, Jurkat, and THP-1, stress induced by gentle tumbling of the samples resulted in rapid and strong activation of Rap1. This turbulence-induced activation could not be blocked by inhibitors previously shown to affect Rap1 activation in human platelets, such as the intracellular calcium chelator BAPTA-AM (1,2-bis(2-aminophenoxy)ethane-N,N,N',N'-tetraacetic acid) and various protein kinase C inhibitors. Also inhibition of actin cytoskeleton dynamics did not influence this activation of Rap1, suggesting that this activation is mediated by cell surface receptors. Human platelets, however, were refractory to turbulence-induced activation of Rap1. To determine the consequences of Rap1 activation we measured adhesion of megakaryocytes to fibrinogen, which is mediated by the integrin alphaIIbbeta3, in the presence of inhibitors of Rap1 signaling. Introduction of both Rap1GAP and RalGDS-RBD in the megakaryoblastic cell line DAMI strongly reduced basal adhesion to immobilized fibrinogen. This inhibition was partially rescued by the phorbol ester 12-O-tetradecanoylphorbol-13-acetate but not by alpha-thrombin. From these results we conclude that in megakaryocytes turbulence induces Rap1 activation that controls alphaIIbbeta3-mediated cell adhesion.
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PMID:The small GTPase Rap1 is activated by turbulence and is involved in integrin [alpha]IIb[beta]3-mediated cell adhesion in human megakaryocytes. 1269 Jan 17

Hypercoagulability is often associated with a variety of disease states, leading to cardiovascular complications. Polyethylenimine (PEI) prolonged prothrombin time, demonstrating its anticoagulant potential. In vitro, PEI at low concentration (nM) significantly blocked thrombin-catalyzed fibrin formation, accounting for its mode of anticoagulation. The uncompetitive inhibition by PEI of fibrin formation was independent of the concentration of fibrinogen (FBG), thrombin, or NaCl. PEI showed no effect on thrombin amidolytic activity, suggesting that the blockade of thrombin interaction with FBG could account for the inhibition on fibrin formation. PEI drastically depressed rabbit brain thromboplastin procoagulation monitored by a single-stage clotting assay using human plasma. In a THP-1 monocytic hypercoagulation model, a 4-h exposure to bacterial endotoxin or Ca(2+) ionophore A23187, respectively, resulted in a 5- or 10-fold enhancement in monocytic tissue factor (mTF) procoagulation. mTF hypercoagulation was offset by PEI included in the assay mixture. PEI showed the potential to arrest mTF hypercoagulation with IC(50) around 1.2 nM. Using a chromogenic assay to dissect the extrinsic pathway, we further assessed whether PEI has any effect on other clotting factors. PEI was not an inhibitor for either FVIIa or FXa, having no effect on not only the amidolytic but also their corresponding functionally catalytic activities. Although PEI upregulated TF-dependent FVII activation under the low-salt condition, the effective downstream inhibition of fibrin formation readily abolished and overrode the upstream enhancement, demonstrating the overall anticoagulation. PEI could present a new class of anticoagulant.
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PMID:Novel anticoagulant polyethylenimine: inhibition of thrombin-catalyzed fibrin formation. 1280 18

This study was undertaken to characterize the adhesion of LS174T colon adenocarcinoma cells to 4-h TNF-alpha-stimulated human umbilical vein endothelial cells (HUVECs) under flow in the presence and absence of platelets and erythrocytes. Cell binding to HUVECs was significantly enhanced by simultaneous perfusion of thrombin-activated, but not resting, platelets. This increase was achieved via a platelet bridging mechanism whereby a previously tethered LS174T cell (primary tether) captures a free-flowing cell (secondary tether) that subsequently attaches to the endothelium downstream of the already adherent cell. The total number of tumor cells tethering to HUVECs and the percentage of secondary tethers relative to the total amount of cell tethering depended on platelet concentration and wall shear stress. At 0.8 dyn/cm(2) and a platelet-to-LS174T cell ratio of 25:1, the total amount of cell tethering nearly doubled as a result of platelet-induced enhancement compared with the amount without platelet perfusion. Moreover, the percentage of secondary tethers increased from background levels (<5%) in the absence of platelets to approximately 60% at a platelet-to-LS174T cell ratio of 25:1. Platelet-mediated secondary tethering is not limited to LS174T colon carcinoma cells, as THP-1 monocytoid cells also displayed this pattern of interaction. Secondary tethering was dependent on both platelet P-selectin and alpha(IIb)beta(3)-integrin for LS174T cells and P-selectin alone for THP-1 cells. Furthermore, platelet-mediated secondary tethering of both cell types occurred in the presence of red blood cells. Altogether, these results reveal a novel role for platelets in promoting cell binding to endothelium through a secondary tethering mechanism.
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PMID:Platelet-induced enhancement of LS174T colon carcinoma and THP-1 monocytoid cell adhesion to vascular endothelium under flow. 1508 76

Natural 1-O-alkylglycerols have multiple biological activities with distinct mechanisms. In THP-1 monocytes, they amplify platelet-activating factor production. In endothelial cells, they participate in the production of 1-O-alkyl-2-acyl-sn-glycerol, a PKC inhibitor. Since PAF as well as PKC may interfere with platelet functions, we studied the effect of natural alkylglycerols purified from shark liver oil on [3H]-serotonin release from rabbit platelets in vitro. [3H]-alkylglycerols (1 microM) were consistently incorporated into platelet lipids and after a 2-h incubation, they were metabolised into phosphatidylcholine, phosphatidylethanolamine and phosphatidylinositol, which represented 53.5+/-1.7%, 36.3+/-1.8%, 5.3+/-0.5% of metabolised [3H]-alkylglycerols, respectively. Alkylglycerols (10 microM) had no effect on spontaneous [3H]-serotonin release. However, alkylglycerols partially inhibited PAF-induced [3H]-serotonin release while they did not modify thrombin-induced release. These data show that alkylglycerols inhibit partially and specifically PAF-induced platelet stimulation and suggest that this effect could result from interfering with PAF receptors.
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PMID:Natural 1-O-alkylglycerols reduce platelet-activating factor-induced release of [3H]-serotonin in rabbit platelets. 1517 80

The pro-oxidant activities of baicalein, morin, myricetin, quercetin, and rutin were examined in various cell-containing systems including human platelets, rat vascular smooth muscle cells, human umbilical vein endothelial cells (HUVECs), human THP-1 cells, and fibroblast cells. Electron spin resonance (ESR) results showed that only baicalein generated hydroxyl radicals in a resting human platelet suspension, whereas the other flavonoids showed no effects on any of the resting cell systems. A low concentration of arachidonic acid (AA) increased the intensity of hydroxyl radicals, but a high concentration inhibited it. Collagen and thrombin, platelet aggregatory agents that can cause the release of AA by platelets, enhanced baicalein-induced hydroxyl radical formation, whereas ADP and U44619 showed no significant effects. Quinacrine and 5,8,11,14-eicosatetraenoic trifluoromethyl ketone, both PLA2 inhibitors, significantly attenuated baicalein-induced hydroxyl radical formation. These results suggest that baicalein-induced hydroxyl radical formation is associated with AA metabolite enzymes in human platelets. The formation of hydroxyl radicals was significantly inhibited by lipoxygenase inhibitors including nordihydroguaiaretic acid, (-)-epicatechin, (-)-epicatechin gallate, and hinokitiol, but was not affected by desferroxamine or the heme protein inhibitors KCN and NaN3. On the other hand, semiquinone free radicals were generated when baicalein was incubated with horseradish peroxidase/H2O2 or platelets/AA. The semiquinone radicals formed in the platelets/AA system could be extensively inhibited by desferroxamine, diethylenetriaminepentaacetic acid, KCN, and NaN3, indicating that prostaglandin H synthase (PGHS)-peroxidase may be involved. The results of this study led to the proposal that baicalein induces hydroxyl radical formation via 12-lipoxygenase and induces semiquinone radical formation via PGHS-peroxidase in human platelets.
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PMID:Baicalein induction of hydroxyl radical formation via 12-lipoxygenase in human platelets: an ESR study. 1726 56

Under normal conditions, macrophages provide essential innate immune surveillance in tissues. These cells also play key functions during wound healing and in pathological conditions. When macrophages are exposed to thrombin, an enzyme released from leaky blood vessels, they are stimulated to produce inflammatory cytokines, which are critical for wound healing and can also facilitate tumor growth and invasion. Using antibody cytokine arrays, we identified IL-8/CXCL8, a chemokine that plays important functions in inflammation and angiogenesis and consequently in healing and tumor development, as one of the cytokines that is highly stimulated in macrophages by thrombin. Here, we investigated the signal transduction mechanism by which thrombin stimulates IL-8/CXCL8 expression in THP-1-derived and primary human macrophages. We show that JNK is a crucial mediator of the thrombin signaling pathways in macrophages, and the activation of JNK is dependent on stimulation of the Rho small GTPase. The thrombin-induced Rho/JNK cascade is a novel signaling cascade for IL-8/CXCL8 transcription activation. Understanding the molecular mechanism by which thrombin controls the expression of inflammatory cytokines in macrophages can lead to therapeutic interventions, which can provide better management of healing, inflammation, and tumorigenesis.
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PMID:Molecular mechanisms of thrombin-induced interleukin-8 (IL-8/CXCL8) expression in THP-1-derived and primary human macrophages. 1758 62

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