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)

In patients with acute myocardial infarction (MI), quick initiation of thrombolytic therapy is the best strategy for improvement of survival and reduction of morbidity. Streptokinase, a purified product of haemolytic streptococci, is the most commonly administered agent. The compound anistreplase (a complex of streptokinase to plasminogen), is available but currently not often used. The non-antigenic competitor for these two compounds for the indication of MI is alteplase (recombinant tissue plasminogen activator, rt-PA). Due to former use of streptokinase or its derivative anistreplase, patients may develop specific antibodies to the foreign protein, whereas cross-reacting antibodies may be due to streptococcal infections. These antibodies may neutralise streptokinase or its derivative in case of (re)administration and may mediate adverse events, sometimes serious. Since advanced age by itself is certainly not a contraindication to thrombolytic therapy, and because reinfarction occurs frequently, the benefit-risk ratio of re-exposure to streptokinase or its derivative is decreased in the elderly who present with reinfarction. In the framework of tailored thrombolytic therapy, alteplase or urokinase appear to be the drugs of choice in these patients.
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PMID:Does the potential for development of streptokinase antibodies change the risk-benefit ratio in older patients? 757 82

Anistreplase is a thrombolytic agent comprising a complex of streptokinase, lys-plasminogen, and a p-anisoyl group, which temporarily protects the catalytic center of the enzyme complex. Streptokinase was previously shown to reduce infarct size (IS) in dogs with a fibrin-rich clot in the left anterior descending coronary artery (LAD) without necessarily producing reperfusion. Therefore, we hypothesized that IS in this model would be reduced by anistreplase. In addition, we studied the effect of tissue-type plasminogen activator (t-PA) on IS, testing our hypothesis in anesthetized dogs in which thrombin (100 U) and calcium (50 microliters, 0.05 M) were sequentially injected into the LAD to form a thrombus, anistreplase [0.01, 0.05, or 0.10 U/kg intravenous (i.v.) bolus], t-PA (0.1, 0.5, 2, or 8 micrograms/kg/min infusion for 60 min) or vehicle (VEH) was administered 55 min later. Anistreplase (0.05 or 0.10 U/kg) significantly (p < 0.05) reduced clot weight (VEH 22 +/- 3 mg; anistreplase 0.05 U/kg, 13 +/- 4 mg; anistreplase 0.10 U/kg, 0.7 +/- 0.6 mg), increased incidence of reperfusion (VEH 0%; anistreplase 0.05 U/kg, 42%; anistreplase 0.10 U/kg, 100%) and reduced IS (VEH 23 +/- 3%; anistreplase, 0.05 U/kg, 14 +/- 2%; anistreplase 0.10 U/kg, 15 +/- 2%). t-PA reduced thrombin weight (VEH 26 +/- 3 mg; 2 micrograms/kg/min t-PA 12 +/- 4; 8 micrograms/kg/min t-PA 2 +/- 2 mg) and increased incidence of reperfusion (VEH 0%; 2 micrograms/kg/min 75%; 8 micrograms/kg/min 100%), but IS was not altered (VEH 19 +/- 3%; 0.1 microgram/kg/min 18 +/- 3%; 0.5 microgram/kg/min 23 +/- 2%; 2 micrograms/kg/min 16 +/- 5%; 8 micrograms/kg/min: 19 +/- 3%).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Cardioprotection and thrombolysis by anistreplase in anesthetized dogs. 759 32

Streptokinase and alteplase are established therapies in acute myocardial infarction. Reteplase is a new thrombolytic agent that can be given as a double bolus. This trial was designed to determine whether the effect of reteplase on survival was at least equivalent (within 1% of fatality rate) to that of a standard streptokinase regimen. Patients from 208 centres in nine countries (n = 6010) with symptoms and electrocardiographic criteria consistent with acute myocardial infarction were randomised to receive double-blind either streptokinase 1.5 MU intravenously over 60 min or reteplase two boluses of 10 MU given 30 min apart. Treatment could be started up to 12 h from onset of symptoms. All patients received intravenous heparin for at least 24 h. The primary endpoint was 35-day outcome. There were 270 deaths (9.02%) in the reteplase and 285 deaths (9.53%) in the streptokinase group, a non-significant difference (95% CI -1.98% to 0.96%). Among patients who received treatment (98.8%) there were 263 deaths (8.90%) in the reteplase compared with 279 deaths (9.43%) in the streptokinase group (a difference of -0.53%). Because the upper limit of the 90% CI for this difference is 0.71%, this result shows that reteplase is at least as effective as streptokinase. In-hospital stroke rates were 1.23% for reteplase and 1.00% for streptokinase. Bleeding events were similar in the two treatment groups (0.7% reteplase, 1.0% streptokinase). The incidence of recurrent myocardial infarction was similar, but there were significantly fewer cases of atrial fibrillation, asystole, cardiac shock, heart failure, and hypotension in the reteplase group. We conclude that reteplase is an effective drug in the treatment of acute myocardial infarction. It is clinically safe, its administration is simple, and it will be a useful addition to the range of thrombolytic agents available.
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PMID:Randomised, double-blind comparison of reteplase double-bolus administration with streptokinase in acute myocardial infarction (INJECT): trial to investigate equivalence. International Joint Efficacy Comparison of Thrombolytics. 1111 34

Streptokinase is a plasminogen activator widely used to treat patients with myocardial infarction. However, streptokinase is not a protease, and must first bind and interact with plasminogen to form an enzymatic complex. By measuring the binding of recombinant streptokinase fragments to plasminogen, we have sought, first, to identify a plasminogen binding region in streptokinase and, second, to explore the relation between binding (via this region) and the generation of a functional streptokinase--plasminogen activator complex. Recombinant streptokinase bound in a saturable and specific manner to human Glu-plasminogen with a dissociation constant of 4.2 x 10(-10) M. Recombinant streptokinase fragments spanning amino acids 1-127 and 1-253 could not be shown to bind to Glu-plasminogen, whereas fragments spanning amino acids 1-352, 120-352, and 244-414 bound tightly to plasminogen and each fragment completely inhibited the binding of full-length streptokinase to plasminogen. Although these latter streptokinase fragments formed a complex with plasminogen, enzymatic assays indicated that none of them was capable of generating an active site. When the streptokinase region shared by these three fragments, spanning residues 244-352, was expressed, it also bound plasminogen and competitively inhibited the formation of a functional plasminogen activator complex by full-length streptokinase. Taken together, these data indicate that streptokinase binds to plasminogen with high affinity, that a primary binding region for plasminogen is located within amino acids 244-352, and that binding via this region is necessary for the generation of a functional plasminogen activator complex.
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PMID:Identification of a plasminogen binding region in streptokinase that is necessary for the creation of a functional streptokinase-plasminogen activator complex. 764 Feb 82

Thrombolytic therapy remains a mainstay for the treatment of patients with acute myocardial infarction. This therapy has been the subject of intense investigation and multiple studies as well as substantial controversy. Controversial issues include, among others, the specific drug, need for heparin, the relation between time to treatment and outcome and risk/benefit considerations. The Global Utilization of Streptokinase and Tissue Plasminogen Activator for Occluded Coronary Arteries (GUSTO) trial of 41,021 patients addressed many of these issues. The results of the main trial were conclusive--treatment with accelerated tissue-type plasminogen activator (t-PA) resulted in a decreased mortality rate with a 15% reduction (95% confidence interval 5.9 to 21.3) compared with the two streptokinase monotherapy strategies (p = 0.001). Virtually all subgroup analyses, including age, nonanterior infarction location, patients undergoing bypass graft surgery and hypertensive patients, showed remarkable consistency with improved outcome with accelerated t-PA. This reduction in all-cause mortality with accelerated t-PA was associated with a small (absolute 0.2%) but significant increase in hemorrhagic stroke (p = 0.03). A combined end point of death or disabling stroke, or both, was still decreased in the accelerated t-PA group compared with the streptokinase group (p = 0.006). The angiographic substudy evaluated the mechanism of improved outcome and documented that reperfusion therapy works by restoring Thrombolysis in Myocardial Infarction (TIMI) grade 3 flow early, improving left ventricular function and improving mortality. The most favorable outcome seen with t-PA was related to the finding that it resulted in improved TIMI grade 3 flow compared with that for streptokinase.
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PMID:Lessons we have learned from the GUSTO trial. Global Utilization of Streptokinase and Tissue Plasminogen Activator for Occluded Arteries. 777 8

Data are now available from three large-scale randomized trials that directly compare the risks and benefits of thrombolytic agents in acute myocardial infarction. In the interpretation of results from the Gruppo Italiano per lo Studio della Sopravvivenza nell'Infarto Miocardico (GISSI-2) trial and its International Extension, the Third International Study of Infarct Survival (ISIS-3), and the Global Utilization of Streptokinase and Tissue Plasminogen Activator for Occluded Coronary Arteries (GUSTO-1) trial, there are areas of both agreement and controversy. It is generally agreed that the agents most commonly used in the United States--tissue-type plasminogen activator (t-PA), streptokinase and anisoylated plasminogen streptokinase activator complex (APSAC)--all reduce mortality when given to patients with acute evolving myocardial infarction. Further, it is clear that thrombolytic therapy given to such patients presenting up to 12 h after onset of symptoms reduces the mortality rate by approximately 20%, that aspirin therapy for patients presenting up to 24 h reduces the mortality rate by approximately 23% and that the benefits of thrombolytic therapy and aspirin are additive. Finally, and of most importance, the earlier administration as well as the more widespread use of thrombolytic therapy and aspirin would save many more lives. The totality of evidence clearly indicates that streptokinase produces significantly fewer strokes and cerebral hemorrhages than either t-PA or APSAC. Whether or not accelerated t-PA has a small advantage for mortality is less conclusive.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Current issues concerning thrombolytic therapy for acute myocardial infarction. 777 9

Thrombolytic therapy has revolutionized the treatment of acute myocardial infarction by reducing mortality and preserving left ventricular function. It is relatively safe and cost-effective. However, it is currently underused in most countries. Patients in whom thrombolysis is indicated include those with ST elevation on the electrocardiogram or bundle branch block pattern who present within 12 hours of myocardial infarction; the indications should be widened to include the elderly, patients who have undergone nontraumatic cardiopulmonary resuscitation, and women during menstruation. The risk-benefit ratio should be assessed for the individual patient. Prehospital thrombolytic treatment has been shown to be feasible with the support of well-trained staff and resuscitation equipment, and may be cost-effective in communities with time delays before hospitalization greater than 1 hour. The most important strategy is to shorten the "door to needle" time in hospital. The importance of full infarct-related artery flow (Thrombolysis in Myocardial Infarction [TIMI] grade 3 flow) for preservation of ventricular function and survival has been documented in the second Thrombolysis Trial of Eminase in Acute Myocardial Infarction (TEAM 2) and the Global Utilization of Streptokinase and t-PA for Occluded Coronary Arteries (GUSTO) studies. Aspirin and heparin are beneficial adjunctive regimens to thrombolytic therapy but optimal epicardial reperfusion is achieved in only about half of patients. Improved thrombolytic, adjunctive antiplatelet, and antithrombotic regimens are required to achieve early full reperfusion, which is crucial to improve survival and quality of life.
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PMID:Thrombolytic therapy in acute myocardial infarction. 791 92

Radioactively labeled human fibrin clots were placed into veins of Macaca arctoides monkeys. Thrombolysis was recorded by the disappearance of radioactivity and by angiography. Streptokinase (SK) and urokinase (UK) induced thrombolysis was potentiated by low dose aspirin (ASA) and pentoxifylline (PE). Studies on the mechanisms of action revealed that PE inhibits platelet aggregation, releases tissue plasminogen activator (t-PA) from the endothelium, increases red cell deformability and inhibits white cell adhesion. Thrombolysis by pro-urokinase (pro-UK) was potentiated by low dose SK probably because of streptokinase-plasmin activation of pro-UK to UK. Platelet aggregation inhibitory effects, disaggregation of platelet aggregate inducing effects, and the t-PA releasing activity of PE was demonstrated in patients with obstructive cardiovascular disease. Pharmacodynamic studies suggested that PE metabolites one and five are most effective from this point of view. These metabolites are currently studied in combination with thrombolytic enzymes.
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PMID:Potentiation of thrombolytic therapy by enzyme combinations and with aspirin or pentoxifylline. 799 60

Streptokinase, acylated plasminogen streptokinase complex, and tissue-type plasminogen activator (tPA) are widely used for the treatment of acute myocardial infarction. These thrombolytic agents restore blood flow in occluded coronary arteries, salvage myocardial function, and decrease mortality. The success of thrombolytic therapy depends on the prompt and stable recanalization of the occluded blood vessel. Hemorrhagic events undermine the safety of fibrinolytic agents. Most bleeding complications occur at vascular puncture sites and can be avoided by limiting invasive procedures; however, an increased incidence of devastating intracranial bleeds is also encountered. The cause of thrombolytic-induced intracranial hemorrhage is unknown but may be due to lysis of protective hemostatic plugs. Another potential contributor to bleeding is activation of circulating plasminogen by the exogenous plasminogen activator to yield fluid-phase plasmin. Plasmin is a promiscuous proteinase that degrades many proteins that play pivotal roles in hemostasis and the integrity of the microvasculature. Tissue-type plasminogen activator activity is depressed in the absence of fibrin; hence, its use as a thrombolytic agent was anticipated to avoid the untoward consequences of plasminemia. However, the administration of pharmacologic doses of tPA can result in the activation of appreciable quantities of circulating plasminogen. In contrast to currently available thrombolytic agents, the activity of the vampire bat salivary plasminogen activator (BatPA) displays a strict requirement for the presence of fibrin. Assessment of BatPA using animal models of arterial thrombosis has demonstrated efficacy but without activation of systemic plasminogen. The avoidance of plasminemia when using BatPA as a fibrinolytic agent may circumvent bleeding complications that can compromise the safety of thrombolytic therapy.
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PMID:The search for the ideal thrombolytic agent: maximize the benefit and minimize the risk. 821 Sep 41

Proper understanding of the pathologic process of a ruptured plaque followed by thrombus formation, with acute assessment of the deranged pathophysiology of the coronary circulation as a sequel, remains the basis for rational therapy of cardiac ischemia. With the advent of better thrombolytic regimens, improved direct reperfusion via angioplasty, and streamlined recognition/admission procedures, therapeutic strategies for dealing with acute myocardial infarction have once more turned to the options for early therapy. From recent studies of out-of-hospital thrombolysis or immediate percutaneous transluminal coronary angioplasty, the position is reinforced that "early" means the first 100 minutes. It is hoped that the large Global Utilization of Streptokinase and t-PA for Occluded Arteries (GUSTO) study, which specifically analyses the effect of early reperfusion by optimal alteplase and actilyse (recombinant tissue-type plasminogen activator [rt-PA]) versus streptokinase regimens will confirm this essential concept once and for all. Thus, when appropriate therapy--depending in the local availability of facilities--is promptly given, further reductions in myocardial infarction size and ventricular dysfunction can be achieved, resulting in mortality rates < 5%, at substantial savings in ever more expensive healthcare resources. "Early is < 100 minutes; later may be too late or too costly."
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PMID:Expanding indications for thrombolytic therapy in acute myocardial infarction. How late is too late, and how early is early: the clinician's view of the first 100 minutes. 827 56


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