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: UNIPROT:P00750 (PLA)
16,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Streptokinase induced thrombolysis of radioactive labeled human fibrin clots was potentiated by simultaneous treatment with pentoxifylline (Trental). This appears to be due in part to the prevention of platelet aggregation on the clot. In addition, release of t-PA and PgI2 from the endothelium and increases in red cell deformability may also play a role.
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PMID:Mechanism of the potentiation of thrombolysis by pentoxifylline (Trental). 350 56

Serial biochemical studies were performed in 12 patients treated with intracoronary streptokinase infusion for acute myocardial infarction, in order to study the method of activation of the fibrinolytic system during local administration of a relatively low dose of this drug and to determine correlations between systemic effects and reperfusion. Plasma samples were obtained before and every 15 minutes during the infusion of streptokinase and after completion of the therapy. Streptokinase dosage in this study was 211,000 +/- 88,000 IU (+/- SD). The average time from the onset of symptoms to the start of infusion was 2 hours 50 minutes (range 1 hour 10 minutes to 3 hours 30 minutes). Reperfusion occurred in six patients and temporary recanalization in three; in three patients no recanalization was achieved. Fibrinolytic assays of pretreatment plasma samples revealed elevated levels of plasminogen activators, presumably caused by the release of tissue-type plasminogen activator after a condition of stress. Plasminogen concentrations decreased from 94 +/- 17% to 44 +/- 30%. Alpha 2-antiplasmin fell from 84 +/- 27% to 12 +/- 19%; in seven patients no plasmin inhibitor activity was measurable at the completion of the infusion. Free plasmin occurred in samples only when this inhibitor had disappeared. This resulted in a lytic state leading to degradation of fibrinogen, the levels of which fell from 2.9 +/- 0.7% to 1.5 +/- 1.1%. Fibrinogen degradation products, measured in plasma with monoclonal antibodies, increased exponentially during streptokinase infusion in at least four patients.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Activation of the fibrinolytic system during intracoronary streptokinase administration. 379 96

Tissue-type plasminogen activator (t-PA) is a promising thrombolytic agent because it can produce thrombolysis without inducing a plasma proteolytic state. It is uncertain if this potentially important feature renders t-PA less hemorrhagic than other plasminogen activators. We have compared the hemorrhagic and thrombolytic effects of t-PA and streptokinase in rabbits. Streptokinase, 4000 U/kg/hr over 4 hr, failed to produce significant thrombolysis and 8000 U/kg/hr streptokinase over 4 hr produced only 28 +/- 6% thrombolysis. Both streptokinase regimens were associated with a plasmin-mediated plasma proteolytic state and both streptokinase regimens produced a significant increase in hemorrhage that was evident within 15 min of beginning the infusion and was progressive over the 4 hr of drug administration. In contrast, t-PA in a dose of 7500 U/kg/hr produced 35 +/- 6% thrombolysis, but it did not produce a plasmin-mediated plasma proteolytic state or a significant increase in hemorrhage over the 4 hr of infusion. t-PA in a dose of 15,000 U/kg/hr produced 85 +/- 4% thrombolysis but was associated with a plasmin-mediated proteolytic state and produced significant bleeding which, in contrast to streptokinase-induced bleeding, was delayed in onset. Therefore, t-PA induced less hemorrhage than streptokinase at doses that produced more effective thrombolysis. Bleeding with both thrombolytic agents was associated with a plasmin-mediated proteolytic state.
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PMID:A comparison of the thrombolytic and hemorrhagic effects of tissue-type plasminogen activator and streptokinase in rabbits. 403 86

Tissue type plasminogen activator (t-PA) is an effective thrombolytic agent in experimental animals. The duration of the thrombolytic effect of infused t-PA is unknown. We compared the duration of the thrombolytic effect of t-PA with streptokinase by measuring the lysis of 125I-fibrin-labeled thrombi in rabbit jugular veins at different times after a bolus injection of the fibrinolytic agents. The pharmacodynamics of both thrombolytic agents were determined in rabbits using a sensitive ex vivo fibrinolytic assay. Streptokinase and t-PA were given as a bolus dose of 15,000 U/kg. There was no detectable circulating fibrinolytic activity 30 minutes after the bolus dose of t-PA and 120 minutes after the bolus dose of streptokinase. The t-PA injection produced 34% thrombolysis at 30 minutes, 90% thrombolysis at 120 minutes, and 96% thrombolysis at 240 minutes. The streptokinase injection produced 17% thrombolysis at 30 minutes, 34% at 120 minutes, and 34% at 240 minutes. These observations indicate that the thrombolytic effect of t-PA is sustained beyond its time of clearance from the circulation whereas the thrombolytic effect of streptokinase closely parallels its activity in the circulation.
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PMID:Sustained thrombolysis with DNA-recombinant tissue type plasminogen activator in rabbits. 404 Apr 10

The catabolic pathways of streptokinase, plasmin, and activator complex prepared with human plasminogen were studied in mice. (125)I-streptokinase clearance occurred in the liver and was 50% complete in 15 min. Incubation with mouse plasma had no effect on the streptokinase clearance rate. Complexes of plasmin and alpha(2)-plasmin inhibitor were eliminated from the plasma by a specific and saturable pathway. Competition experiments demonstrated that this pathway is responsible for the clearance of injected plasmin. Streptokinase-plasminogen activator complex formed with either (125)I-plasminogen or (125)I-streptokinase cleared in the liver at a significantly faster rate than either of the uncomplexed proteins (50% clearance in <3 min). Streptokinase incubated with human plasma also demonstrated this accelerated clearance. p-Nitrophenyl-p'-guanidinobenzoate-HCl or pancreatic trypsin inhibitor-treated complex cleared slowly compared with untreated complex independent of which protein was radiolabeled. Significant competition for clearance was demonstrated between alpha(2)-macroglobulin-trypsin and activator complex only when the plasmin(ogen) was the radiolabeled moiety. Large molar excesses of alpha(2)-plasmin inhibitor-plasmin failed to retard the clearance of activator complex. Hepatic binding of streptokinase-plasmin, in liver perfusion experiments, was dependent upon prior incubation with plasma (8-10% uptake compared to a background of approximately 2.5%). Substitution of human alpha(2)-macroglobulin for plasma also resulted in binding when the incubation was performed for 10 min at 37 degrees C (7.5%). Electrophoresis experiments confirmed the transfer of 0.8 mol plasmin/mol alpha(2)-macroglobulin when activator complex was incubated at 37 degrees C with alpha(2)-macroglobulin for 40 min. Streptokinase transfer from activator complex to alpha(2)-macroglobulin was negligible. The in vivo clearance of activator complex is proposed to involve active attack of the complex on the alpha(2)-macroglobulin "bait region," resulting in facilitated plasmin transfer. Dissociated streptokinase is rapidly bound and cleared by sites in the liver.
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PMID:Catabolic pathways for streptokinase, plasmin, and streptokinase activator complex in mice. In vivo reaction of plasminogen activator with alpha 2-macroglobulin. 617 57

The observation that administration of antifibrinolytic drugs results in tumour growth stasis, having possibly its origin in reduced vascularization of the tumour, led us to investigate the migratory behaviour of bovine endothelial cells under in vitro conditions in the presence of drugs known to influence the activity of fibrinolytic enzymes. The Boyden-technique and microcinematography were used for this analysis. It could be shown that aprotinin, an inhibitor of serine proteinases and para-methylaminobenzoic acid, a specific inhibitor of plasminogen activation and plasmin action greatly reduced the migratory rate of the cells. Streptokinase, a plasminogen activator, stimulated the cell migration in optimal concentrations. The authors hypothesize that tumour vascularization is initiated by immigration of endothelial cells into the tumour by fibrinolytic action following a fibrin gradient induced by the tumour themselves. Fibrinolytic inhibitors suppress this process.
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PMID:A possible explanation of mechanisms inducing inhibition of vascularization of tumours by antifibrinolytic drugs--the influence of migratory behaviour of endothelial cells. 620 12

In view of current interest in the possibility of rapid, high-dose administration of thrombolytic agents by the intravenous route in patients with coronary thrombosis (AMI), a study of this technique was carried out in the dog. Streptokinase-(human) plasmin activator complex (SK-Pm) and BRL 26921 (p-anisoylated streptokinase-(human) plasminogen activator complex) were each given at equivalent doses (28,500 IU/kg and 800 micrograms/kg respectively) to groups of beagle dogs by rapid injection over 10 sec and their effects on blood pressure, plasmin formation and kallikrein production were compared over the next 3h. SK-Pm produced, within 1-3 min, a pronounced hypotensive effect that was kinetically related to a rapid and steep rise in systemic plasmin and kallikrein concentrations. BRL 26921 had no hypotensive effect, the rise in plasmin production was slower and the rate and extent of kallikrein formation was significantly less than in the SK-Pm group.
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PMID:Comparison of the hypotensive effects of streptokinase-(human) plasmin activator complex and BRL 26921 (p-anisoylated streptokinase-plasminogen activator complex) in the dog after high dose, bolus administration. 639 Jul 76

Five native mammalian plasminogen species, namely, cat, dog, bovine, rabbit and horse, were studied and compared to native human plasminogen with respect to their substrate and enzymatic properties in various activated forms. These studies are an extension of previous work and were designed to confirm our previously proposed mechanism of plasminogen activation, using a series of native, but different, plasminogen substrates. The plasminogen activator species used were high molecular weight urokinase, streptokinase, human Glu-plasminogen-streptokinase complex, human plasmin-derived light(B)-chain-streptokinase complex, and the equimolar streptokinase activator complexes prepared from cat and dog plasmins. The peptidase parameters of the plasmins, plasmin-streptokinase and plasminogen-streptokinase complexes were determined with H-D-valyl-L-leucyl-L-lysyl-p-nitroanilide and Tos-glycyl-L-prolyl-L-lysyl-p-nitroanilide. Activation kinetics were measured with the same substrates. The peptidase parameters of all plasmin species were found to be similar, but with minor variations. The equimolar streptokinase mixtures of bovine, rabbit and horse plasminogens and plasmins did not form complexes and did not form active sites with plasminogen, under the conditions used. The second-order rate constants of activation revealed great differences (as much as 1400-fold), presumably expressing differences in the tertiary structure of the various plasminogen scissile bonds. The catalytic rate constants of activation, kplg, varied by as much as a 100-fold, while differences in Kplg were relatively small. The results of this study confirm the activation mechanism we have postulated previously, namely, that rapid-equilibrium rather than steady-state conditions prevail and that k2 (acylation) is the catalytic rate constant and the rate-determining step, while KS is a true dissociation constant. Calculations of the free energy of interaction of the peptidase and plasminogen activation reactions showed -4.4 to -5.6 kcal/mol for peptidase and -6.5 to -10 kcal/mol for the activation reaction. These values indicate 1-3 subsite binding interactions for the peptidase activity and 3-5 subsite binding interactions for the activation catalytic event. Streptokinase activator complexes have at least one more interacting subsite than the urokinase active site.
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PMID:Comparative activation kinetics of mammalian plasminogens. 668 80

Considering the enormous increase in the use of thrombolytic therapy over the last decade, many of the early concepts of thrombolytic therapy have proved to be remarkably robust. Early and sustained restoration of coronary patency remains the ultimate goal. Streptokinase is still extensively used despite evidence that alteplase may, under some conditions, be more effective. Aspirin is of proven efficacy, heparin is important with alteplase but less so with streptokinase. The benefits of early thrombolysis, even if this means pre-hospital administration, have been repeatedly confirmed. On the debit side, more effective thrombolysis seems to go hand in hand with increased bleeding risk, and primary angioplasty seems to be emerging as a viable alternative in high risk patients. More effective regimens tend to be more complex, and the proportion of eligible patients receiving thrombolytic therapy is still relatively low. Better early diagnosis, by methods independent of the electrocardiogram, and simplified but effective treatment regimens using improved thrombolytic agents are likely developments in the near future.
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PMID:Thrombolytic therapy of acute myocardial infarction. 754 70

Streptokinase is an antigenic thrombolytic agent used for the treatment of acute myocardial infarction. It reduces mortality as effectively as the nonantigenic alteplase in most infarct patients while having the advantage of being much less expensive. This cost implication is important since myocardial reinfarction is common, with fibrinolytic therapy indicated in many patients with reinfarction. Following streptokinase, antistreptokinase antibodies and neutralisation titres can rise to significant levels from 4 days after the initial dose. These antibodies can presist for at least 4 years in up to 50% of patients. It is possible that these antibodies may cause allergic reactions or neutralisation of a further dose of streptokinase, rendering it ineffective for the treatment of myocardial reinfarction. To date, 2 small studies of patients without previous streptokinase exposure suggest that higher antibody titres are associated with a lower rate of coronary reperfusion, while a further study suggests that high titres are associated with hypersensitivity reactions. At present the readministration of streptokinase cannot be recommended from 4 days after a first dose. Further larger studies are needed to assess the effect of high neutralisation titres on coronary reperfusion.
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PMID:How safe is the readministration of streptokinase? 757 66


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