Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.6 (thromboplastin)
 13,278 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Monocrotaline pyrrole (MCTP), a putative toxic metabolite of the naturally occurring pyrrolizidine alkaloid, monocrotaline, causes pulmonary vascular thrombi that are associated with vascular remodeling, pulmonary hypertension, and right cardioventricular hypertrophy in rats. The thrombi are composed of platelets and fibrin and occur in the absence of vascular necrosis. Since thrombosis may result from excessive procoagulant activity in the systemic circulation, we evaluated the hemostatic system of rats treated with MCTP to determine if a hypercoagulable state developed in the peripheral blood. Male Sprague-Dawley rats received a single, bolus injection of MCTP (3.5 mg/kg) or an equal volume of the N,N-dimethylformamide (DMF) vehicle in the tail vein. Rats were killed at 1, 3, 5, 8, 11, or 14 days after toxin administration, and several markers of lung injury and hemostasis were evaluated. The protein concentration of cell-free bronchoalveolar lavage fluid (BALF) from MCTP-treated rats was slightly elevated at 1 and 3 days. At 5 days the elevation had become more pronounced, and values increased markedly thereafter. The wet lung-to-body-weight ratio and lactate dehydrogenase activity of cell-free BALF from rats treated with MCTP were mildly increased at 3 days. Increases in these markers progressed at 5 days and values reached a plateau thereafter. MCTP-treated rats had moderately increased total nucleated cell counts in BALF at 5 days, and counts increased markedly thereafter. Right cardioventricular hypertrophy was first detected at 8 days in MCTP-treated rats and became more pronounced with time. The prothrombin time and modified prothrombin time of MCTP-treated rats were consistently greater than those of controls. Although statistically different, these values never exceeded the range of normal values. The activated partial thromboplastin time of MCTP and control rats was variable. Only at Day 14 did MCTP-treated rats have significantly longer activated partial thromboplastin times than those of controls, and these values were within the normal range. Rats treated with MCTP had statistically significant elevations in antithrombin 3 activity at Day 8 and of fibrinogen concentration and antithrombin 3 activity at Day 11 that exceeded the normal range. Platelet numbers of both MCTP- and DMF-treated rats were greater than normal on Day 1 but quickly returned to baseline. The plasminogen values of rats treated with MCTP were lower than controls on Day 5 only. These results suggest that the pulmonary vascular thrombi induced by administration of MCTP to rats are not mediated by an excess in procoagulant activity in the peripheral blood.
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PMID:An evaluation of procoagulant activity in the peripheral blood of rats treated with monocrotaline pyrrole. 183 Jan 77

The nature of the graft used for the rescue of patients undergoing autologous bone marrow transplantation is that of a complex mixture of pharmacological agents and cellular debris known to have a number of effects on the haemostatic system. The present study was undertaken to evaluate the occurrence and the degree of haemostatic alterations during and immediately following graft infusion in 24 patients suffering from haematological malignancies. On day 0, before graft infusion, the majority of patients appeared with laboratory signs of enhanced thrombin generation, platelet activation, and endothelial damage, most likely due to the conditioning regimen. However, the graft infusion per se was accompanied in the short term by a further increment of some parameters indicating a thrombotic risk (as thrombin-antithrombin complex, beta-thrombo globulin, platelet factor four, and von Willebrand factor antigen, together with a concomitant prolongation of partial thromboplastin time and a reduction of prothrombin time. In contrast there was no further modification of antithrombin III or protein C levels nor an increase in fibrinopeptide A levels. We hypothesize that complex interactions between agents contained in the graft mixture and host haemostatic system are involved in the pathogenesis of the haemostatic alterations which followed cryopreserved graft infusion; however, in our series, these were not accompanied by clinical signs of thrombotic or haemorrhagic events.
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PMID:Early haemostatic modifications following cryopreserved graft infusion. 183 62

Angioplasty procedures with balloons, cutters or lasers all may greatly enlarge the arterial lumen, but luminal diameter may decrease because of mural thrombus in 70% to 80%, smooth muscle proliferation, vasoconstriction or recoil. Thrombin binds to arterial wall matrix and fibrin within a thrombus. Heparin dose-dependently decreases platelet and thrombus deposition but does not eliminate these even at high doses. Specific thrombin inhibition started before angioplasty experimentally prevents mural thrombus and limits platelet deposition to a single layer or less. Experimentally, anticoagulant and antifibrin effects occur at lower antithrombin blood levels and lower activated partial thromboplastin times (1.7 times control). Because platelets are so sensitive to thrombin, the higher level of thrombin inhibition required may occur at a specific level (activated partial thromboplastin time greater than or equal to 2 times control); this is not defined in humans. The duration of therapy is not defined in animals or humans. Thrombus and thrombin may be related to cellular proliferation.
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PMID:Importance of antithrombin therapy during coronary angioplasty. 184 31

This article introduces a new method of component preparation that is capable of producing white cell (WBC)-reduced platelet concentrates (PCs) from whole blood. Whole blood is separated into packed red cells (RBCs) and platelet-rich plasma (PRP) by centrifugation, and the PRP is expressed through a newly designed WBC removal filter into the platelet storage bag. The filtered PRP is then centrifuged and yields WBC-reduced PCs and plasma for freezing as fresh-frozen plasma (FFP). The method uses standard triple-pack blood bags and centrifugation protocols. Fifteen WBC-reduced PCs prepared with this technique had an average volume of 56.7 mL, an average Day 5 platelet content of 8.6 x 10(10) per unit, and an average Day 5 WBC content of 0.83 +/- 0.7 x 10(4) per unit (0.14 WBCs/microL). This represents WBC removal equal to at least 99.9 percent (3 log10) of the WBCs found in standard PCs prepared in our laboratory by an identical centrifugation protocol. Paired studies documented a 4.5-percent platelet loss by filtration. Filtration had no effect on the plasma prepared for FFP as measured by prothrombin time; activated partial thromboplastin time; factors I, V, VIII:C, and VIII:von Willebrand factor; antithrombin-III; albumin; globulin; or total protein. This method holds promise as a simple and highly effective technique for the production of WBC-reduced PCs by filtration during component preparation.
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PMID:Preparation of white cell-reduced platelet concentrates from whole blood during component preparation. 185 50

Dermatan sulfate is a polydisperse, microheterogeneous sufated copolymer of N-acetyl-D-galactopyranose and idopyranosyluronic acid that is currently under clinical investigation as a new antithrombotic agent. The structure and activity of two pairs of dermatan sulfates, isolated from bovine and porcine mucosa, were studied. One dermatan sulfate from each species demonstrated high in vivo antithrombotic activity in the rat vena cava assay. The in vitro anticoagulant activity of each dermatan sulfate was determined using activated partial thromboplastin time (APTT), thrombin time (TT) (5 units), calcium thrombin time (CaTT) (5 units), Heptest, anti-factor Xa and anti-factor IIa antithrombin assays and heparin cofactor II amidolytic assays. The coagulation-based assays gave the best correlation to in vivo antithrombotic activity. The physical and chemical properties of each dermatan sulfate were determined using 1H-NMR and 13C-NMR spectroscopy, molecular weight determination, potentiometric titration, chemical degradative analysis, chondroitin lyase degradative analysis and oligosaccharide mapping. These analyses indicated that the major difference between dermatan sulfates from a particular species having high and low in vivo antithrombotic activity was their iduronic acid content. The relation between increased iduronic acid content and increased in vivo antithrombotic activity may be the result of the conformational flexibility of this residue.
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PMID:Structural features of dermatan sulfates and their relationship to anticoagulant and antithrombotic activities. 193 Feb 87

Forty-eight patients with freshly diagnosed carcinoma of the lung (40 males, 8 females) were evaluated for a coagulation profile including activated partial thromboplastin time (aPTT), prothrombin time (PT), fibrinogen, F VIII R:Ag, fibrin monomers (FM), thrombin-antithrombin-III complex (TAT-III), D-dimers and the platelet count. Thirty-eight patients had a normal aPTT and 37 patients a normal PT. None of the patients had clinical or laboratory indications of serious hemorrhage or thrombosis. On the other hand, high percentages of increased values were found for fibrinogen and F VIII R:Ag, which can be seen as prethrombotic factors. The very high percentages of elevated results for the FM, TAT-III and D-dimer are strongly indicative for low-grade coagulation activation with reactive fibrinolysis. Nevertheless, most lung cancer patients are able to maintain a normal or near normal hemostatic function. The results shown here are indicative of a coagulation and fibrinolysis equilibrium at an enhanced level and demonstrate why an unbalance between the two systems can result in thrombotic complications in (lung) cancer patients as earlier reported.
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PMID:Coagulation/fibrinolysis balance and lung cancer. 195 97

Unfractionated heparin in the extrinsic system has an action on prothrombinase that is insignificant compared to its antithrombin action. In the intrinsic system, unfractionated heparin does have an indirect antiprothrombinase action because its antithrombin activity inhibits the feedback activation of Factor VIII. Most low molecular weight heparins are not different from unfractionated heparin, although their antiprothrombinase action may be slightly higher. Among these, enoxaparin has the highest antiprothrombinase action, due to a relatively high content of very low molecular weight material. In platelet rich plasma, there is an important difference between unfractionated and low molecular weight heparin in that, up to 0.3 U/ml, unfractionated heparin is completely neutralized by activated platelets (300,000 microliters/l) whereas low molecular weight heparins are not. Therefore, unfractionated heparin in platelet rich plasma acts only on the lag phase of thrombin production and not on the amount of thrombin produced. Low molecular weight heparins significantly prolong the lag time and inhibit the thrombin peak in platelet rich plasma.
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PMID:Mode of action of enoxaparin in plasma. 196 17

Thrombin was acetylated by treatment with acetic anhydride, and the potency for protein C activation and the fibrinogen clotting activity of the resultant acetylthrombin were investigated in vitro and in vivo. The acetylthrombin retained an amidolytic activity to the synthetic substrate, S-2238, and reduced both of the potency for protein C activation and the clotting activity. The potency for protein C activation (0.47% of that of thrombin) was retained more than the clotting activity (0.015% of that of thrombin). The enzymatic activities of acetylthrombin were in inverse proportion to the molecular weights of the substrates, S-2238, protein C, and fibrinogen. Similarly, the inhibitory activity on acetylthrombin was dependent on the molecular weights of the inhibitors, Thromstop, I-2581, hirudin, and antithrombin-III. When acetylthrombin (5000 units/kg body weight) was infused into rabbits, the activated partial thromboplastin time was prolonged to the same extent as that following infusion of thrombin (125 units/kg), but the fibrinogen level was not decreased in contrast to the large decrease following infusion of thrombin. It is suggested that acetylthrombin activates protein C without clotting fibrinogen in vivo.
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PMID:Effects of acetylthrombin on protein C activation and fibrinogen clotting. 196 50

Heparins, unfractionated and low molecular weight, act primarily by their scavenging of thrombin (S-type heparins). Via the feedback effect on factor VIII this has a secondary effect on prothrombin conversion in the intrinsic pathway (activated partial thromboplastin time). The anti-Xa action of a heparin will not significantly inhibit prothrombin conversion, except in the case of ultra low molecular weight heparins (P-type heparins) that have no significant antithrombin activity. These P-type heparins need, therefore, be given at high doses to have an antithrombotic effect. In platelet-rich plasma heparins retard platelet activation by lowering thrombin levels. Activated platelets neutralize up to 0.5 U/ml of unfractionated heparin, but low molecular weight heparin is much less affected.
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PMID:Mode of action of unfractionated and low molecular weight heparins on the generation of thrombin in plasma. 196 67

Antithrombin-III-Hamilton has been shown to be a structural variant of antithrombin-III (AT-III) with normal heparin affinity but impaired protease inhibitory activity. The molecular defect of AT-III-Hamilton is the substitution of Thr for Ala at amino acid residue 382. The plasma of affected individuals contains approximately equal quantities of normal AT-III and AT-III-Hamilton. When AT-III was isolated from the plasma of the propositus by heparin-Sepharose chromatography, it had identical mobility on sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) to normal plasma-derived AT-III, under both reducing and nonreducing conditions. However, the AT-III-Hamilton species, separated from the propositus' normal AT-III by a combination of heparin-Sepharose and thrombin-Sepharose chromatography, had increased mobility on reductive SDS-PAGE compared with AT-III from the propositus isolated by heparin-Sepharose chromatography alone. Under nonreducing conditions this AT-III-Hamilton species had decreased mobility compared with AT-III from the propositus (or normal AT-III) isolated only by heparin-Sepharose chromatography. When incubated with either human alpha-thrombin or human factor Xa, this AT-III-Hamilton species was unreactive. Approximately 50% of the AT-III from the propositus isolated by heparin-Sepharose chromatography, when incubated with either human alpha-thrombin or factor Xa, did not form complex but was cleaved, presumably at the reactive center Arg393-Ser394. To further substantiate the biological behavior of this variant, AT-III-Hamilton polypeptides were synthesized in a cell-free system. This recombinantly produced AT-III-Hamilton, when incubated with either human alpha-thrombin or factor Xa, was cleaved by both these proteases, but did not show any complex formation. The results indicate that AT-III-Hamilton does not form a stable covalent inhibitory complex with these serine proteases but can be cleaved at the reactive center. Thus, the inhibition of serine proteases by their natural inhibitors (the serpins) involves at least two separate, but interrelated events; hydrolysis at the reactive center followed by complex formation. AT-III-Hamilton is capable of only the first of these events.
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PMID:Antithrombin-III-Hamilton, Ala 382 to Thr: an antithrombin-III variant that acts as a substrate but not an inhibitor of alpha-thrombin and factor Xa. 202 79


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