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)

Aspirin, an inhibitor of cyclooxygenase, inhibits platelet aggregation in response to many stimuli. Previous studies suggested an important and necessary role for protein kinase C (PKC) in platelet aggregation and secretion. Therefore, the effects of aspirin on sn-1,2-diacylglycerol (DAG), the endogenous activator of PKC, were investigated. Specifically, we sought to determine whether inhibition of DAG production is critical for aspirin action on platelets. Total DAG mass was measured using the DAG kinase assay. At low doses of gamma-thrombin (4 nM), aspirin (5 mM) completely inhibited secondary aggregation; this inhibition was associated with near-complete inhibition of DAG production. Inhibition of collagen-induced aggregation by aspirin (50 microM) was also associated with complete inhibition of collagen-stimulated DAG production and secondary aggregation. Concomitantly, aspirin reduced phosphorylation of the 40-kDa protein, a specific PKC substrate strongly suggesting inhibition of PKC in response to aspirin. To determine the physiologic significance of the inhibition of DAG production by aspirin, reconstitution studies were conducted with dioctanoylglycerol (diC8), a cell-permeable DAG. Under conditions in which aspirin completely inhibited secondary aggregation induced by gamma-thrombin, collagen, or arachidonic acid, diC8 overcame aspirin inhibition of agonist action and reconstituted secondary aggregation. DiC8 exerted these effects at low concentrations (2-3 microM), which caused minimal aggregation of control platelets. Phorbol 12,13-dibutyrate, a phorbol ester that directly activates PKC, mimicked the effects of diC8 in overcoming aspirin inhibition of collagen-induced platelet activation. However, subthreshold concentrations of the calcium ionophore ionomycin, arachidonic acid, or gamma-thrombin were unable to overcome aspirin inhibition of collagen-induced platelet aggregation, suggesting that the ability to overcome aspirin inhibition is not shared by other second messengers and is not due to nonspecific synergy. These studies constitute evidence that inhibition of DAG production and subsequent PKC activation are crucial to the antiaggregatory effects of aspirin. They also support the hypothesis that DAG production and PKC activation may be the final common pathway for induction of secondary aggregation.
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PMID:Diacylglycerol overcomes aspirin inhibition of platelets: evidence for a necessary role for diacylglycerol accumulation in platelet activation. 201 54

Washed human platelets stimulated with 50 microM sodium arachidonate rapidly accumulated glutathione disulfide to a peak concentration of 0.620 nmole per 10(9) cells, 200% of control (unstimulated) levels. Total glutathione remained unchanged. The rise in glutathione disulfide was transitory, returning to control values within 30 seconds in aggregating platelets. Similar findings were observed in washed platelets aggregated with 5 U/ml thrombin. Platelet aggregation was not necessary for the generation of glutathione disulfide. However, cyclooxygenase activity was necessary for the generation of glutathione disulfide. Aspirin treated platelets aggregated with thrombin demonstrated no thromboxane B2 production and no glutathione disulfide generation. Dose response studies with both agonists demonstrated a direct relationship between the amount of thromboxane B2 produced and the amount of glutathione disulfide generated by stimulated platelets. During the conversion of arachidonic acid to thromboxane B2, unesterified arachidonic acid is oxygenated to prostaglandin G2 which is subsequently reduced to prostaglandin H2. Both reactions are catalyzed by the enzyme prostaglandin H synthase. Our data support the hypothesis that glutathione is an important supplier of reducing equivalents to prostaglandin H synthase during the production of prostaglandin H2 in human platelets.
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PMID:Glutathione disulfide production during arachidonic acid oxygenation in human platelets. 210 65

The covalent modification of proteins by metabolites of arachidonic acid (AA) was investigated in human platelets. Following incubation of washed human platelets with radiolabeled AA, ethanol precipitation of the proteins, and lipid extraction by organic solvents, a small fraction of the radioactivity added (0.3%) was tightly bound to the protein pellet. A dozen labeled protein bands were resolved by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Exhaustive hydrolysis of platelet proteins by proteases released an amphipathic radiolabeled material which had a chromatographic behavior similar to that of a known peptidolipid, leukotriene C4. These findings suggest a covalent nature for the observed binding. This binding was specific for AA since palmitate, myristate, or linoleate did not bind to a significant extent. It involved products of both cyclooxygenase and lipoxygenase pathways: it was indeed inhibited to a greater extent by eicosatetraynoic acid than by indomethacin. The protein-associated radioactivity was increased by the thromboxane synthase inhibitor dazoxiben. Indomethacin completely abolished this increase in binding, which could not be reproduced by exogenous prostaglandin (PG) E2, F2 alpha, or D2, and might thus involve PGG2 and/or PGH2. Diamide, an agent known to inhibit the reduction of 12-hydroperoxyeicosatetraenoic acid in platelets, produced an increase of the covalent binding, which was abolished by eicosatetraynoic acid but not by indomethacin: this suggests that the lipoxygenase product bound was 12-hydroperoxyeicosatetraenoic acid or a by-product. Dazoxiben and diamide produced distinct patterns of protein labeling after sodium dodecyl sulfate-polyacrylamide gel electrophoresis. One labeled band had a Mr of 70,000 as the PGH synthase monomer. Addition of AA at 17 microM enhanced the labeling of this band, while 100 microM was inhibitory. Labeling of this band was also induced by thrombin in prelabeled platelets. Two monoclonal antibodies against PGH synthase caused immune precipitation of a 70-kDa labeled protein in homogenates of [3H]AA-labeled platelets. PGH synthase, purified from ram seminal vesicles, was covalently modified after incubation with [3H]AA: this labeling was almost completely abolished by indomethacin. As much as 40% of platelet PGH synthase was covalently modified after incubation with 17 microM AA. It can be concluded that in intact platelets PGH synthase is covalently modified by an eicosanoid following incubation with exogenous AA or after AA mobilization from phospholipids by thrombin.
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PMID:Covalent binding of arachidonic acid metabolites to human platelet proteins. Identification of prostaglandin H synthase as one of the modified substrates. 210 68

(C-14)-Arachidonic acid [(C-14)-AA] metabolism was studied in platelet concentrates (PCs) stored for 5 d. There was a gradual decrease in uptake of radioactivity from day 0 to 3 (P less than 0.01). On day 0, distribution of radioactivity in platelet phospholipids (PLs), and formation of phosphatidic acid, HETE and cyclooxygenase products, when platelets were exposed to thrombin (5 U/ml), were similar to that reported for fresh platelets. On day 3 there was a change in the distribution of (C-14)-AA in platelet PLs which consisted of an increase in the percentage of radioactivity bound to phosphatidylserine, from 5.3 +/- 0.9% on day 0 to 8.8 +/- 1.5% on day 3 (P less than 0.001), and a decrease in (C-14)-AA in phosphatidylinositol (PI), from 12.4 +/- 1.5% on day 0, to 7.9 +/- 0.9% on day 3 (P less than 0.001). Phosphatidic acid generated by thrombin-stimulated platelets on day 0, comprised 2.6 +/- 0.5% of total radioactivity, but dropped to 1.4 +/- 0.3% on day 3 (P less than 0.001), and 0.9 +/- 0.2% on day 5 (P less than 0.01). These values showed a good correlation with the percentage of (C-14)-AA released from PI on the same days (r = 0.9). On day 0, 13.4 +/- 4.4% of platelet radioactivity was released from phosphatidylcholine by thrombin, but this amount was reduced to 6.8 +/- 3.4% on day 5 (P less than 0.05). Generation of radioactive 12-hydroxy-5,8,10,14-eicosatetraynoic acid (HETE) also dropped from 7.2 +/- 2.9 on day 0, to 2.1 +/- 1 on day 5 (P less than 0.01). We could not detect changes in cyclooxygenase metabolites. In conclusion, we suggest that various enzymatic pathways implicated in AA metabolism by platelets are impaired by storage.
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PMID:Arachidonic acid metabolism in platelets stored for 5 days. 211 Apr 65

Previous studies have reported that polyunsaturated fatty acids (PUFAs) of nutritional interest may influence arachidonic acid (20:4n-6) metabolism in both platelets and endothelium, when tested separately. In the present study, platelets (PL) and cultured endothelial cells (EC) were first pre-enriched with eight different PUFAs for a two hour incubation in the presence of free fatty acid albumin pre-coated with each acid. EC, PL or both cell populations in combination, were then stimulated by thrombin (0.1 U/ml) for five minutes. Prostanoids were extracted, purified by thin-layer chromatography, and TxB2, 6-keto-PGF1 alpha and PGE2 were quantitated by radioimmunoassays. Prostanoids or dihomoprostanoids formed from cyclooxygenase substrates other than 20:4n-6 were measured by gas chromatography-negative chemical ionisation mass-spectrometry (GC-MS). When co-incubated with EC, PL produced less TxB2 (-15 and -85% in the absence and presence of thrombin, respectively). In contrast, 6-keto-PGF1 alpha increased by 189 (basal conditions) and 358% (thrombin stimulation) when PL were added to EC, in agreement with PGH2 transfers from PL to EC. PGE2, produced by both cell populations, reached amounts which roughly represent the sum of those measured in PL and EC alone, except when cells were pre-enriched with linoleic (18:2n-6) and the n-3 family fatty acids (18:3-, 20:5- and 22:6n-3). 6-keto-PGF1 alpha was markedly inhibited by adrenic acid (22:4n-6), while this acid was converted into dihomo-6-keto-PGF1 alpha, the stable metabolite of dihomoprostacyclin. 22:4n-6 also inhibited TxB2 formation and was converted into dihomo-TxA2.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Modulation of prostanoid formation by various polyunsaturated fatty acids during platelet-endothelial cell interactions. 211 Jun 76

Prostaglandin endoperoxide synthase (PES, EC 1.14.99.1) catalyse the conversion of arachidonic acid into prostaglandin H2. The enzyme is a 140 kDa homodimer which contains both a cyclo-oxygenase activity (converting arachidonate into prostaglandin G2) and peroxidase activity (reducing prostaglandin G2 to H2). PES undergoes rapid self-inactivation during oxygenation of arachidonate to prostaglandin H2 in vitro. The previously reported cDNA-derived amino acid sequence indicates numerous sites for trypsin or thrombin cleavage. Most of these sites must be inaccessible, since these enzymes cleave only at Arg253. The enzyme appears to be a self-adherent and highly folded molecule, since after cleavage it retains its functional assembly and its homodimer size of 140 kDa, as well as its overall enzymic activity. Only under denaturing conditions (e.g. SDS/PAGE) can the proteolytic peptides be demonstrated: a 38 kDa C-terminal fragment containing the aspirin-derived-acetyl-binding ability, and a 33 kDa N-terminal fragment. In the present studies we investigated whether the two enzymic activities of PES can be differentially manipulated by proteolytic cleavage or by substrate (arachidonate) self-inactivation. The results indicated that, during arachidonate oxygenation by PES, the cyclooxygenase activity is selectively inactivated, whereas the peroxidase activity is essentially retained. By contrast, thrombin or trypsin cleavage of pure PES or microsomal PES (to yield the 38 and 33 kDa peptide fragments) inactivated the peroxidase, but not the cyclo-oxygenase. Taken together, these results suggest the presence of separate cyclo-oxygenase and peroxidase structural domains on the enzyme.
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PMID:Differential modification of cyclo-oxygenase and peroxidase activities of prostaglandin endoperoxidase synthase by proteolytic digestion and hydroperoxides. 211 18

Human umbilical vein endothelial cells subjected to 24 h of anoxia followed by reoxygenation released less prostacyclin (PGI2) in response to thrombin, calcium ionophore A23187, or arachidonic acid. This was associated with a substantial increase in stimulated platelet adherence. Increased lactate dehydrogenase and 51Cr release occurred after 1 h of reoxygenation, but the high rate of release did not persist during the subsequent 23 h of reoxygenation. The changes in platelet adherence and PGI2 release partially resolved over 24 h. PGI2 formation from prostaglandin H2 was not reduced, suggesting that cyclooxygenase activity, but not prostacyclin synthase, is affected by reoxygenation. A decrease in arachidonic acid release from cellular lipids also occurred. The reduction in cyclooxygenase activity, but not arachidonic acid release, was prevented by the presence of ibuprofen during reoxygenation. Addition of catalase or superoxide dismutase during reoxygenation increased PGI2 release but did not completely overcome the reduction relative to control cultures. These findings suggest that the increase in platelet adherence during reoxygenation may be mediated in part by a change in cyclooxygenase activity. This is only partly overcome by extracellular oxygen species scavengers but is prevented by the presence of a reversible cyclooxygenase inhibitor during reoxygenation.
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PMID:Reduced prostacyclin formation after reoxygenation of anoxic endothelium. 212 35

We have evaluated the mechanism by which crosslinking human platelet Fc receptor (FcR) for IgG triggers platelet aggregation and the platelet release reaction. Platelet FcR was crosslinked by incubating purified human platelets with anti-FcRII monoclonal antibody and F(ab')2 anti-mouse Ig. The resultant [Ca2+]i increase, monitored by Fura-2 and measured in the absence of extracellular Ca2+, reached a peak of 750 +/- 50 nmol/L. The effects of cyclooxygenase inhibitors, aspirin and indomethacin, and a phospholipase A2 inhibitor, dibromoacetophenone, were examined. Regardless of the inhibitor, at least 25% of the [Ca2+]i increase remained. Thrombin (0.2 U/mL) stimulated an immediate [Ca2+]i increase that reached 1.95 +/- 0.8 mumol/L. The [Ca2+]i increase generated by thrombin was only slightly reduced by these inhibitors. Crosslinking the FcRII of platelets resulted in a fivefold increase in the production of [3H]inositol phosphates, (IP) which, in the absence of extracellular Ca2+ was insensitive to aspirin. The activation of a [Ca2+]i increase along with the measured increases in IP indicate that FcRII crosslinking leads to the activation of phospholipase C (PLC). In contrast to thrombin, platelet activation via FcRII depends to a large extent on arachidonic acid metabolites. However, neither cyclooxygenase nor phospholipase A2 inhibitors completely blocked FcRII-stimulated [Ca2+]i increase. These observations led us to propose that crosslinking of platelet FcRII initially activates PLC.
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PMID:Signal transduction by the platelet Fc receptor. 214 75

Platelet-dependent occlusive thrombosis at sites of deep vessel wall injury elicited by electrical stimulation of rat carotid arteries was significantly reduced by thromboxane A2 (TXA2) synthetase inhibition and/or TXA2/prostaglandin endoperoxide receptor antagonism (ridogrel 1.25 mg/kg i.v.; dazoxiben 5 mg/kg i.v.; sulotroban 20 mg/kg i.v.), by inhibition of ADP-dependent platelet responses (ticlopidine 3 x 200 mg/kg orally) and by anticoagulation (heparin 250 U/kg i.v.; warfarin 1.25 mg/kg i.p.). This points to an involvement of arachidonic acid metabolites, ADP and thrombin as modulators of the thrombotic process. The antithrombotic effect of ridogrel (IC50 = 0.22 mg/kg i.v.) was abolished by cyclooxygenase inhibition (suprofen 5 mg/kg i.v.) but enhanced by cAMP phosphodiesterase inhibition (HL 725 6 micrograms/kg/min i.v.), demonstrating the importance of platelet inhibitory prostanoids such as PGD2, and prostacyclin formed after TXA2 synthetase inhibition. High doses of ridogrel (1.25 mg/kg i.v.) producing additional TXA2/prostaglandin endoperoxide receptor antagonism were more effective than lower doses (0.16 mg/kg i.v.) providing TXA2 synthetase inhibition alone. The antithrombotic effect of ridogrel, when combined with ticlopidine or heparin, exceeded that of the single compounds, pointing to interactions between arachidonic acid metabolites, ADP and thrombin in the formation of occlusive thrombosis at sites of arterial injury.
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PMID:Arachidonic acid metabolites, ADP and thrombin modulate occlusive thrombus formation over extensive arterial injury in the rat. 215 28

Platelets are central to the pathophysiology of an array of vascular disorders. Current platelet-inhibitor drugs reduce platelet aggregation through one of three pathways but do not prevent initial platelet adhesion. The most extensive clinical experience is with aspirin, an irreversible inhibitor of cyclooxygenase. Aspirin is clinically effective and has few gastrointestinal side effects if used at a dosage of 150 to 300 mg per day. Large clinical trials have documented the benefits of aspirin in arterial thromboembolic disease. It is effective in the primary and secondary prevention of myocardial infarction, including patients with unstable angina; reduces the acute thrombotic complications of coronary angioplasty and revascularization surgery; and also reduces cerebral ischemic events in patients with cerebrovascular disease. Aspirin is less effective for thrombi arising from the venous system or intracardiac chambers, which respond well to anticoagulants. Dipyridamole and sulfinpyrazone are most effective at preventing thrombosis on prosthetic surfaces. Dipyridamole reduces emboli from mechanical prosthetic valves when combined with warfarin and, unlike aspirin plus warfarin, does not increase bleeding complications. Newer agents such as ticlopidine and the thrombin inhibitor, hirudin, appear promising but require further evaluation. Because thrombin plays a critical role in mechanisms of arterial thrombosis, its inhibition appears promising for future therapy.
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PMID:Platelet inhibitor therapy. Agents and clinical implications. 217 12


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