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 production of hydrogen peroxide was measured by following the oxidation of dichlorofluorescein (DCFH) entrapped into platelets. Resting platelets produced nanomolar quantities of DCF, which was proportional to the concentration of platelets and was steady during 1 h of incubation. A significant increase of basal DCF fluorescence was induced by stimuli namely thrombin, arachidonic acid, the Ca2+ ionophore A23187 and PMA. The effect of agonists has been also measured in the presence of 3-amino-1,2,4-triazole (AT) or N-ethylmaleimide (NEM), inhibitors of catalase and glutathione peroxidase, respectively. A further significant enhancement of DCF produced in stimulated platelets was detected only in the presence of NEM. A correlation was found between the increase in DCF and externally added hydrogen peroxide or the oxidizing species formed by xanthine oxidase plus acetaldehyde. The yield was not affected by superoxide dismutase and was higher in the presence of AT or NEM. A cooperative effect in the presence of both inhibitors was shown. Glutathione peroxidase plus glutathione diminished the level of DCF to basal levels.
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PMID:Generation of hydrogen peroxide in resting and activated platelets. 162 82

Cisplatin (cis-diamminedichloroplatinum II) at the concentrations of 2-20 micrograms induces non-enzymatic peroxidation of pig platelet lipids. At low concentration (0.1 microgram) it inhibits the enzymatic thrombin-stimulated transformation of platelet endogenous arachidonic acid. This drug also reduces the activities of platelet enzymes: superoxide dismutase and glutathione peroxidase.
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PMID:Effect of cisplatin on lipid peroxidation in blood platelets. 179 13

Interactions of human platelets with cadmium in vitro were studied with respect to the platelet activation process as indicated by malondialdehyde (MDA) formation and also to the components of the cellular antioxidant defence system such as catalase, glutathione peroxidase (GPx), glutathione reductase (GR), glutathione-S-transferase (GST), glucose-6-phosphate dehydrogenase (G6PDH), and reduced glutathione (GSH). Cadmium treatment stimulated platelet MDA formation after a lag phase of at least 15 min and this effect was completely blocked by either 1 mM aspirin or 1 mM CaCl2. Cadmium pretreated platelets also displayed a much higher (5 fold) MDA formation when stimulated by thrombin. Platelet catalase activity was decreased by almost 50% after incubation with cadmium. There was also a moderate decline in platelet GSH and GR activity along with a stimulation of GST and G6PDH activity. These results suggest: (1) the cadmium effect on platelets as observed by enhanced formation of MDA via the cyclooxygenase pathway involves intraplatelet accumulation of cadmium which is inhibited by calcium, (2) a modest decline in GSH, presumably due to the inadequacy of H2O2 detoxification mechanism, does not adversely affect platelet function because of the adaptive response of G6PDH, and (3) intracellular accumulation of cadmium may result in platelet hyperactivity through higher intraplatelet free calcium levels resulting directly through cadmium action or indirectly through higher H2O2 levels due to catalase inhibition.
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PMID:Effects of cadmium treatment in vitro on the antioxidant protection mechanism and activation of human blood platelets. 313 42

In 20 adult patients suffering from hyperlipidaemia we measured the lipid composition of erythrocyte membrane, the glutathione peroxidase activity in both erythrocytes and platelets, the production of malondialdehyde by platelets stimulated with thrombin, as well as the level of plasma selenium, retinol and alpha-tocopherol, before and after 8 weeks of fish oil supplementation (20 ml daily). We noted a remarkable reduction in plasma triglycerides which was associated with a significant decrease in blood pressure; moreover, we noted a reduction in the amount of arachidonic acid compensated by an increment of omega-3-fatty acid (particularly eicosapentaenoic and docosahexaenoic acids). The dietary supplementation with fish oil was associated with a significant increase in glutathione peroxidase activity in both erythrocytes and platelets. On the contrary, the production of malondialdehyde, which was originally higher than normal in hyperlipidaemics, was inhibited significantly after fish oil (p less than 0.001). Whereas no changes were observed in the concentration of plasma selenium and alpha-tocopherol, an increment of plasma retinol occurred. These data indicate that in hyperlipidaemics there is a proaggregant status; this situation may be normalized by using a dietary supplementation of fish oil; the increase of polyunsaturated fatty acids on the cell membrane, with a possible increment of the formation of lipoperoxides, induced by fish oil, is compensated by an increased activity of the scavenger enzyme glutathione peroxidase.
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PMID:Effects of dietary fish oil on malondialdehyde production and glutathione peroxidase activity in hyperlipidaemic patients. 320 Oct 98

Selenium added to the culture medium of confluent pig aortic endothelial cells caused a time-related elevation in the activity of the hydroperoxide scavenging enzyme: glutathione peroxidase. This increased activity was associated with an enhanced ability to produce prostacyclin irregardless of whether the agonist was arachidonic acid or thrombin. Since prostacyclin synthetase is believed to be irreversibly inhibited by alkyl hydroperoxides, we feel that the greater production of prostacyclin by selenium-treated cells as compared with control cells may reflect a protective effect of GSH.Px towards the synthetase enzyme. The results from this study may explain the observations made on a group of human volunteers ingesting selenium as a dietary supplement. After six weeks treatment with selenium, bleeding time in this group was prolonged suggesting an improved ability to synthesize prostacyclin as a result of selenium-dependent glutathione peroxidase activation in the vessel wall.
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PMID:Selenium enhances prostacyclin production by cultured endothelial cells: possible explanation for increased bleeding times in volunteers taking selenium as a dietary supplement. 637 71

We investigated the possible regulatory role of glutathione peroxidase on thromboxane formation by reducing peroxides in platelets. Experiments carried out in platelet lysates demonstrated that the burst of the arachidonate metabolism was accompanied by a simultaneous burst of hydrogen transfer from glutathione to peroxides, catalyzed by endogenous glutathione peroxidase. The burst of hydrogen transfer was partially inhibited by acetylsalicylate concurrently with the complete inhibition of malondialdehyde formation, thus suggesting that the hydrogen acceptor peroxides were derived in part from the cyclooxygenase pathway. Moreover, increasing glutathione peroxidase activity by adding purified enzyme to the incubation media decreases thromboxane formation. Intact platelets, stimulated with arachidonic acid or thrombin, produced malondialdehyde and thromboxane in amounts roughly inversely related to the endogenous glutathione peroxidase activity. In contrast, no correlation was observed between glutathione peroxidase activity and agonist-induced platelet aggregation. Our experiments suggest that in normal platelets, glutathione peroxidase controls thromboxane formation.
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PMID:The enzyme glutathione peroxidase in arachidonic acid metabolism of human platelets. 643 76

Selenium (Se) is an essential component of glutathione peroxidase (GSH-Px), an enzyme that protects cells by reducing intracellular peroxides. Impaired Se status and GSH-Px activity seem associated with increased risk of atherosclerotic vascular diseases. This study reports the effects of Se supplementation on GSH-Px activity, on prostacyclin (PGI2) production, on 12-hydroxy-eicosatetraenoic acid (12-HETE) levels, and on GSH-Px mRNA expression in cultured human umbilical vein endothelial cells (HUVEC). Se-enriched HUVEC showed significant increase of both GSH-Px activity and thrombin-stimulated production of PGI2 in the presence of stable concentrations of 12-HETE. On the other hand, an inverse correlation between Se concentrations in culture media and GSH-Px mRNA levels in Northern blot analysis was shown; this suggests that a major degree of regulation for GSH-Px expression by Se is most likely exerted at the posttranscriptional level. These observations may help to explain the increased incidence of atherosclerosis described in Se-deficient individuals.
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PMID:Selenium enhances glutathione peroxidase activity and prostacyclin release in cultured human endothelial cells. Concurrent effects on mRNA levels. 788 76

In 41 patients with coronary heart disease (CHD) the concentrations of total blood platelet malonyldialdehyde (MDA: 2.11 +/- 0.25 nmol/10(9) platelets) and MDA corresponding to thromboxane A2 (TXA2 0.84 +/- 0.13 nmol/10(9) platelets) were increased in comparison with values in blood platelets of healthy subjects (1.19 +/- 0.09 and 0.71 +/- 0.05 nmol/10(9) platelets), respectively. The increased aggregability with ADP and thrombin of patient platelets was also observed. In relation to the blood platelets of healthy subjects, the antioxidant enzymes activities of patient blood platelets were significantly (P < 0.001) decreased. Platelet glutathione peroxidase (GSH-Px) activity of the patients (11.3 +/- 0.85 U/g protein) was significantly lower than controls (18.3 +/- 1.12 U/g protein). In patients with CHD the activities of the other antioxidative platelet enzymes: catalase (Cat, 7.37 +/- 1.38 U/g protein) and superoxide dismutase (SOD, 1529.4 +/- 167 U/g protein) were also significantly decreased in comparison with values for healthy subjects (Cat: 9.06 +/- 1.30 U/g protein and SOD: 1987 +/- 230 U/g protein, respectively). It is suggested that antioxidative defense in blood platelets may affect the haemostatic processes and lipid peroxidation in patients with CHD.
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PMID:Changes in antioxidant enzymes activities, aggregability and malonyldialdehyde concentration in blood platelets from patients with coronary heart disease. 835 54

Platelet thromboxane (TX) production was examined in response to dietary copper. Groups of eight rats were fed copper-deficient, -marginal, and -adequate diets providing 0.5, 1.7, and 7.5 micrograms Cu/g, respectively, with controlled dietary Se and vitamin E. Platelets were purified and washed by centrifugation. Separate platelet samples from each rat were challenged with 10 micrograms/ml of collagen and 1 unit/ml (27.3 nM) of thrombin in Tyrode's buffer, 2.0 mM Ca2+. Platelet copper-dependent superoxide dismutase (CuSOD) activity showed a significant depression with reduced diet copper, but platelet glutathione peroxidase activity was unaffected. Challenged platelet TX production showed a significant 1.5- to 2.5-fold increase in response to both dietary copper deficiency and marginality, with highly significant negative correlations between challenged platelet TX production and platelet CuSOD activity and between TX production and copper status (liver copper). Endogenous (unchallenged) platelet lipid hydroperoxide concentrations, measured as free fatty acid hydroperoxides by a glutathione-disulfide-specific glutathione reductase recycling assay, showed a nonsignificant 47-67% increase in copper deficiency. Pooled data showed a significant 71% increase in platelet lipid hydroperoxides in copper deficiency. Platelet TX production showed a significant correlation with endogenous lipid hydroperoxides. The results suggest that dietary copper insufficiency increases platelet TX synthesis through changes in CuSOD in a dose-responsive (diet copper and platelet CuSOD activity) manner, and that platelet TX synthesis is influenced by lipid hydroperoxides (peroxide tone).
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PMID:Thromboxane production in copper-deficient and marginal platelets: influence of superoxide dismutase and lipid hydroperoxides. 842 6

Methylglyoxal generates a slight increase in the basal level of hydrogen peroxide in platelets. The oxidation effect of methylglyoxal significantly potentiated by thrombin, depends on both the ketoaldehyde and the agonist concentrations. A further significant increase in hydrogen peroxide accumulation was obtained in platelets pretreated with the alkylating agent N-ethylmaleimide which depletes GSH and blocks glutathione peroxidase. Resting platelets completely transform the ketoaldehyde into D(-)lactate, whereas stimulated platelets transform about 10-15 per cent of the metabolized methylglyoxal into D(-)lactate. The metabolic modifications generated by methylglyoxal such as the GSH depletion and hydrogen peroxide accumulation induce modifications in platelet function. Methylglyoxal inhibits platelet aggregation induced by several agonists and ATP release induced by thrombin.
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PMID:Effects of methylglyoxal on platelet hydrogen peroxide accumulation, aggregation and release reaction. 864 Sep 57

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