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:3.4.21.5 (thrombin)
33,306 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effects of an extract of Ginkgo biloba (EGb 761) on arteriolar spasm were confirmed using a preparation of rat cremaster muscle. When vasospasm was induced by rat serum, arteriolar constriction reached 25-30% of the initial diameter after 10 min. Intravenous injection of EGb 761 (30 mg/kg) 5 min after inducing spasm inhibited about 80% of this serum-induced vasoconstriction. As previous studies have shown that EGb 761 has an antiaggregatory effect on platelets, thrombin, serotonin (platelet-derived compounds that are present in the serum) and a thromboxane analogue (U46619) were also used to induce vasospasm. Administration of EGb 761 (30 mg/kg) 5 min after exposure of the preparation to serotonin (10(-3) M) or 10 min after exposure to thrombin (20 units) did not affect vasospasm induced by these agents. In contrast, treatment with this same dose of EGb 761 5 min after exposure of the preparation to U46619 (10(-4) M) abolished the arteriolar constriction induced by this agent in 15 min. The thromboxane/prostaglandin H2 receptor antagonist SQ29548 antagonized serum-induced vasospasm, indicating an involvement of thromboxane. Other experiments indicated that the effects of EGb 761 of counteracting vasospasm may be mediated in part by ginkgolide B, a triterpene constituent of the extract that is an antagonist of platelet-activating factor and in part by an 'NO-like' action of its proanthocyanidin constituents. Taken together, these results have revealed that EGb 761 treatment can antagonize the vasoconstrictor effect of thromboxane on arterioles. As thromboxane is implicated in many cardiovascular disorders, this property of EGb 761 may explain some of its beneficial clinical effects in such pathologies.
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PMID:Effects of Ginkgo biloba extract (EGb 761) on arteriolar spasm in a rat cremaster muscle preparation. 873 13

Seventy-four patients with PSS were evaluated with regard to plasma concentration of blood coagulation and fibrinolysis factors: fibrinogen (Fbg), prothrombin time (PT), active partial thromboplastin time (APTT), protein C, thrombin-antithrombin III complex (TAT), antithrombin-III (AT-III), factor XIII (XIII) fibrinopeptide A (FPA), alpha 1-antitrypsin (alpha 1-AT), plasminogen (Pmg), alpha 2-plasmin inhibitor plasmin complex (PIC), alpha 2-plasmin inhibitor (alpha 2-PI), alpha 2-macroglobulin (alpha 2-MG), fibrinopeptide B beta 15-42 (FPB beta-15-42) and soluble fibrin monomer complex (SFMC), FDP (fibrin degradation product) and D-dimer. They were also evaluated with regard to platelet-derived proteins: beta-thromboglobulin (beta-TG), platelet factor 4 (PF4), thromboxane B2 and 6-keto-prostaglandin F1 alpha (6KF). In the coagulation/fibrinolysis systems high plasma levels of TAT, AT-III, FPA, alpha 2-MG and FPB beta 15-42 could be demonstrated in more than 50% of total PSS patients. There was no statistical correlation between those of TAT and AT-III. Plasma levels of PIC, D-dimer, FDP and SFMC were not always high. There was no statistical correlation between those of TAT and PIC. These data lead us to consider that alpha 2-MG may play an important role for inhibiting PIC, which accelerates the conversion from fibrin into FDP. Subsequently, there were high plasma levels of FPB beta 15-42 converted from fibrin monomer. These data seem to be indicative of an involvement of coagulation and platelet disorder in PSS. These platelet-vessel system disorders might be closely related to the pathophysiology of PSS.
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PMID:Plasma levels of molecular markers of blood coagulation and fibrinolysis in progressive systemic sclerosis (PSS). 878 74

To examine the hypothesis that surface P-selectin-positive (degranulated) platelets are rapidly cleared from the circulation, we developed novel methods for tracking of platelets and measurement of platelet function in vivo. Washed platelets prepared from nonhuman primates (baboons) were labeled with PKH2 (a lipophilic fluorescent dye), thrombin-activated, washed, and reinfused into the same baboons. Three-color whole blood flow cytometry was used to simultaneously (i) identify platelets with a mAb directed against glycoprotein (GP)IIb-IIIa (integrin alpha 11b beta 3), (ii) distinguish infused platelets by their PKH2 fluorescence, and (iii) analyze platelet function with mAbs. Two hours after infusion of autologous thrombin-activated platelets (P-selectin-positive, PKH2-labeled), 95 +/- 1% (mean +/- SEM, n = 5) of the circulating PKH2-labeled platelets had become P-selectin-negative. Compared with platelets not activated with thrombin preinfusion, the recovery of these circulating PKH2-labeled, P-selectin-negative platelets was similar 24 h after infusion and only slightly less 48 h after infusion. The loss of platelet surface P-selectin was fully accounted for by a 67.1 +/- 16.7 ng/ml increase in the plasma concentration of soluble P-selectin. The circulating PKH2-labeled, P-selectin-negative platelets were still able to function in vivo, as determined by their (i) participation in platelet aggregates emerging from a bleeding time wound, (ii) binding to Dacron in an arteriovenous shunt, (iii) binding of mAb PAC1 (directed against the fibrinogen binding site on GPIIb-IIIa), and (iv) generation of procoagulant platelet-derived microparticles. In summary, (i) circulating degranulated platelets rapidly lose surface P-selectin to the plasma pool, but continue to circulate and function; and (ii) we have developed novel three-color whole blood flow cytometric methods for tracking of platelets and measurement of platelet function in vivo.
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PMID:In vivo tracking of platelets: circulating degranulated platelets rapidly lose surface P-selectin but continue to circulate and function. 887 31

The syndecan family of transmembrane heparan sulfate proteoglycans is abundant on the surface of all adherent mammalian cells. Syndecans bind and modify the action of various growth factors/cytokines, proteases/antiproteases, cell adhesion molecules, and extracellular matrix components. Syndecan expression is highly regulated during wound repair, a process orchestrated by many of these effectors. Each syndecan ectodomain is shed constitutively by cultured cells, but the mechanism and significance of this shedding are not understood. Therefore, we examined (i) whether physiological agents active during wound repair influence syndecan shedding, and (ii) whether wound fluids contain shed syndecan ectodomains. Using SVEC4-10 endothelial cells we find that certain proteases and growth factors accelerate shedding of the syndecan-1 and -4 ectodomains. Protease-accelerated shedding is completely inhibited by serum-containing media. Thrombin activity is duplicated by the 14-amino acid thrombin receptor agonist peptide that directly activates the thrombin receptor and is not inhibited by serum. Epidermal growth factor family members accelerate shedding but FGF-2, platelet-derived growth factor-AB, transforming growth factor-beta, tumor necrosis factor-alpha, and vascular endothelial cell growth factor 165 do not. Shed ectodomains are soluble, stable in the conditioned medium, have the same size core proteins regardless whether shed at a basal rate, or accelerated by thrombin or epidermal growth factor-family members and are found in acute human dermal wound fluids. Thus, shedding is accelerated by activation of at least two distinct receptor classes, G protein-coupled (thrombin) and protein tyrosine kinase (epidermal growth factor). Proteases and growth factors active during wound repair can accelerate syndecan shedding from cell surfaces. Regulated shedding of syndecans suggests physiological roles for the soluble proteoglycan ectodomains.
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PMID:Regulated shedding of syndecan-1 and -4 ectodomains by thrombin and growth factor receptor activation. 916 35

Ca2+ influx into cells in response to stimulation of various receptors was studied with Swiss 3T3 fibroblasts. The mechanisms involved were found to be so diverse that they were classified into four groups, Type I to IV. Type-I influx occurred, via pertussis toxin-susceptible G-proteins, immediately after internal Ca2+ mobilization by bradykinin, thrombin, endothelin, vasopressin or angiotensin II. Type-II influx induced by bombesin differed from Type I in its insusceptibility to pertussis toxin treatment. Ca2+ influx induced by prostaglandin E1, referred to as Type-III influx, was unique in that phospholipase C was apparently not activated without extracellular Ca2+, strongly suggesting that the Ca2+ influx preceded and was responsible for InsP3 generation and internal Ca2+ mobilization. More Ca2+ entered the cells more slowly via the Type-IV route opened by platelet-derived and other growth factors. These types of Ca2+ influx could be differentiated by their different susceptibilities to protein kinase C maximally activated by 1 h of exposure of cells to PMA, which inhibited phospholipase Cbeta coupled to receptors involved in Type-I and -II influx but did not inhibit growth-factor-receptor-coupled phospholipase Cgamma. Type-I and -II Ca2+ influxes, together with store-operated influx induced by thapsigargin, were not directly inhibited by exposure of cells to PMA, but Type-III and -IV influxes were completely inhibited. In addition, stimulation of receptors involved in Type-I and -IV Ca2+ influx, but not Type-II and -III influx, led to phospholipase A2 activation in the presence of extracellular Ca2+. Inhibition of Type-I and -IV Ca2+ influxes by their respective inhibitors, diltiazem and nifedipine, resulted in abolition of phospholipase A2 activation induced by the respective receptor agonists, in agreement with the notion that Ca2+ influx via these routes is responsible for receptor-mediated phospholipase A2 activation.
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PMID:Differential routes of Ca2+ influx in Swiss 3T3 fibroblasts in response to receptor stimulation. 940 82

During vascular injury, such as observed in atherosclerosis, restenosis, vasculitides, transplantation, or sepsis, vascular smooth muscle cells (SMC) can be exposed to platelets or platelet products. Under these conditions proliferation or cytokine production of SMC stimulated by platelets or platelet products may contribute to regulation of vascular pathogenesis. Thus, we investigated interleukin-6 (IL-6) and IL-8 production as well as proliferation of SMC in response to platelets or platelet lysates. Platelets not already preactivated by thrombin induced IL-6 (10- to 50-fold) or IL-8 production of unstimulated SMC in a cell number dependent fashion. Preactivation of platelets with thrombin potently increased the platelet-mediated IL-6 (50- to 1,000-fold) and IL-8 production of SMC. Hirudin specifically inhibited the activation of platelets with thrombin. Isolated platelets cultured in the absence of SMC did not contain detectable IL-6 or IL-8. Prestimulation (4 hours) of SMC with pathophysiologically relevant substances (lipopolysaccharide [LPS], tumor necrosis factor-alpha [TNF-alpha], or IL-1alpha) further increased the platelet-induced cytokine production. The platelet-derived SMC stimulatory activity was IL-1, since IL-1 receptor antagonist (IL-1-Ra) inhibited the platelet-induced cytokine production of SMC. Anti-platelet-derived growth factor (PDGF)-antibody did not further reduce this activity. Thrombin itself stimulated expression of IL-6 and IL-8 to some degree and induced IL-6 production of SMC synergistically with IL-1. Platelets also induced proliferation of SMC, however, anti-PDGF antibodies, rather than IL-1-Ra blocked this response. These data show that platelet-derived IL-1 stimulates cytokine production of vascular smooth muscle cells, indicating that platelet-derived IL-1 may contribute to regulation of local pathogenesis in the vessel wall by activation of the cytokine regulatory network.
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PMID:Platelet-derived interleukin-1 induces cytokine production, but not proliferation of human vascular smooth muscle cells. 941 77

We investigated the role of the thrombin-activated platelet in modulating the rate and extent of activated protein C (APC)-catalyzed inactivation of platelet-derived factor Va and factor VaLeiden. Platelet-derived factor Va and factor VaLeiden were inactivated by APC at near identical rates; however, complete inactivation of the cofactors was never achieved. Greater residual cofactor activity remained when using thrombin-activated platelets compared with that observed with synthetic phospholipid vesicles and platelet-derived microparticles, suggesting that thrombin-activated platelets protect the cofactors from APC-catalyzed inactivation. This apparent protection was not due to (1) an insufficient number of membrane binding sites for APC or factor Va; (2) the destruction of these sites; or (3) the presence of a platelet-associated APC inhibitor. Results from a plasma-based clotting assay (with or without APC) with platelets or PCPS vesicles added to induce clot formation indicated that, even in the presence of high concentrations of APC, platelets offered protection of the cofactor by delaying cleavage at Arg506. This resulted in incomplete proteolysis of the heavy chain, suggesting that platelets can also protect plasma-derived factor Va from APC-catalyzed inactivation. However, additional experiments indicated that the plasma-derived cofactor, bound to thrombin-activated platelets, was completely inactivated by APC, suggesting that the plasma and platelet-derived cofactor pools represent different substrates for APC. Collectively, these results indicate that platelets sustain procoagulant events by providing a membrane surface that delays cofactor inactivation and by releasing a cofactor molecule that displays an APC resistant phenotype. Thus, at sites of arterial injury, the factor VLeiden mutation may not as readily predict arterial thrombosis, because the normal and variant platelet-derived cofactors are equally resistant to APC at the activated platelet surface.
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PMID:Platelet-derived factor Va/Va Leiden cofactor activities are sustained on the surface of activated platelets despite the presence of activated protein C. 953 92

The accumulation of vascular smooth muscle cells plays an important role in the development of atherosclerotic plaques, and in the restenotic process occurring after balloon angioplasty. Accumulation results from the synergistic effects of various growth factors and cytokines, acting to induce both proliferation and migration. Additionally, a variety of matrix proteins and extracellular proteases modulate the growth responses and phenotype of vascular smooth muscle cells. One of the important effects of growth factors such as platelet-derived growth factors, fibroblast growth factor, angiotensin II, and thrombin is to up-regulate insulin-like growth factor (IGF)-1 receptors on vascular smooth muscle cells. Furthermore, agonists that bind to G-protein-coupled receptors, such as angiotensin II and thrombin, interact with the IGF-1 receptor signalling pathway. Thus, growth factor-stimulated up-regulation of IGF-1 receptors is critical in mediating the proliferative responses to multiple growth factors.
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PMID:Growth factors and vascular smooth muscle cell growth responses. 971 51

(E)-4-Hydroxy-2-nonenal (HNE) is a highly reactive product of the oxidation of low density lipoprotein (LDL) which increases the platelet aggregation response to various agonists. HNE formation was increased during the enhanced platelet aggregation to thrombin, ADP. A23187 and epinephrine in the presence of LDL. The increase in platelet aggregation and HNE formation by LDL was inhibited by superoxide dismutase and catalase, suggesting superoxide and hydrogen peroxide produced by platelets during aggregation may be at least partly responsible. The responsiveness of platelets to LDL and the accompanying HNE formation was increased further in the presence of ferrous ion. The effect of ferrous ion on both platelet responses and HNE formation was decreased by superoxide dismutase, catalase and the antioxidants dipyridamole and probucol implicating platelet-derived free radicals. Ferrous ion caused an increase in the release of arachidonic acid from platelet membrane phospholipids in the presence of LDL which was probably caused by increased HNE production. The results suggest iron could increase platelet reactivity at sites of vascular injury by increasing HNE formation and promote the development of atherosclerotic lesions.
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PMID:The role of (E)-4-hydroxy-2-nonenal in platelet activation by low density lipoprotein and iron. 973 21

Infusion of the GPIIb/IIIa-inhibitor MK383 inhibits thrombin generation in platelet rich plasma by interfering with the production of platelet procoagulant phospholipid exposure. The effect is similar to that of 0.2 U/ml of heparin. Heparin infusion, well known to inhibit thrombin generation by fostering antithrombin activity, inhibits the formation of platelet-derived procoagulant microparticles, probably by decreasing the formation of free thrombin, which, under our circumstances, is the main platelet activator.
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PMID:Treatment with a GPIIb/IIIa antagonist inhibits thrombin generation in platelet rich plasma from patients. 975 11


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