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Target Concepts:
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Query: EC:3.4.21.7 (
plasmin
)
9,023
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Thrombotic
complications of cardiovascular disease are a main cause of death and disability and, consequently, thrombolysis could favorably influence the outcome of such life-threatening diseases as myocardial infarction, cerebrovascular thrombosis and venous thromboembolism. Thrombolytic agents are plasminogen activators that convert plasminogen, the inactive proenzyme of the fibrinolytic system in blood, to the proteolytic enzyme
plasmin
. Plasmin dissolves the fibrin of a blood clot, but may also degrade normal components of the hemostatic system and predispose to bleeding. Currently, five thrombolytic agents are either approved for clinical use or under clinical investigation in patients with acute myocardial infarction. These include streptokinase, urokinase, recombinant tissue-type plasminogen activator (rt-PA), anisoylated plasminogen streptokinase activator complex (APSAC) and single chain urokinase-type plasminogen activator (scu-PA, prourokinase). The first generation thrombolytic agents, streptokinase (and probably also urokinase), are only moderately efficacious and their administration is associated with extensive systemic fibrinogen breakdown. In comparative studies performed in patients with acute myocardial infarction, recombinant tissue-type plasminogen activator (rt-PA) is a more effective and fibrin-specific thrombolytic agent than streptokinase. The acylated plasminogen streptokinase activator complex (APSAC) has a profile of thrombolytic efficacy and fibrin-specificity that is similar or somewhat better than that of streptokinase, but has the advantage that it can be administered by bolus injection. Single chain urokinase-type plasminogen activator is more fibrin-specific than urokinase. Comparative data on the efficacy and safety of this agent are limited as it is in the early stage of clinical investigation. Reduction of infarct size, preservation of ventricular function and/or reduction in mortality has been observed with streptokinase, rt-PA and APSAC. Therefore, thrombolytic therapy will probably become routine therapy for early acute myocardial infarction. In patients with acute myocardial infarction, intravenous streptokinase recanalizes 40-45 percent of occluded coronary arteries and reduces mortality by 25 percent; it costs approximately $200 for a therapeutic dose of 1,500,000 units. Recombinant tissue-type plasminogen activator (rt-PA) is more potent for coronary arterial thrombolysis, producing both more rapid and more frequent (65-70 percent) reperfusion, but it costs over $1,000 for a therapeutic dose of 100 mg. Side effects (mainly bleeding) and the incidence of reocclusion associated with the use of streptokinase and rt-PA are not markedly different. Whether the higher efficacy of rt-PA will translate into a comparably larger reduction of mortality remains to be determined in large comparative clinical trials.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:New developments in thrombolytic therapy. 212 72
Thrombotic
complications of cardiovascular disease are a main cause of death and disability and, consequently, thrombolysis could favorably influence the outcome of such life-threatening diseases as myocardial infarction, cerebrovascular thrombosis and venous thromboembolism. Thrombolytic agents are plasminogen activators that convert plasminogen, the inactive proenzyme of the fibrinolytic system in blood, to the proteolytic enzyme
plasmin
. Plasmin dissolves the fibrin of a blood clot, but may also degrade normal components of the hemostatic system and predispose to bleeding. Currently, five thrombolytic agents are either approved for clinical use or under clinical investigation in patients with acute myocardial infarction. These include streptokinase, urokinase, recombinant tissue-type plasminogen activator (rt-PA), anisoylated plasminogen streptokinase activator complex (APSAC) and single chain urokinase-type plasminogen activator (scu-PA, prourokinase). The first generation thrombolytic agents, streptokinase (and probably also urokinase), are only moderately efficacious and their administration is associated with extensive systemic fibrinogen breakdown. In comparative studies performed in patients with acute myocardial infarction, recombinant tissue-type plasminogen activator (rt-PA) is a more effective and fibrin-specific thrombolytic agent than streptokinase. The acylated plasminogen streptokinase activator complex (APSAC) has a profile of thrombolytic efficacy and fibrin-specificity that is similar or somewhat better than that of streptokinase, but has the advantage that it can be administered by bolus injection. Single chain urokinase-type plasminogen activator is more fibrin-specific than urokinase. Comparative data on the efficacy and safety of this agent are limited as it is in the early stage of clinical investigation. Reduction of infarct size, preservation of ventricular function and/or reduction in mortality has been observed with streptokinase, rt-PA and APSAC. Therefore, thrombolytic therapy will probably become routine therapy for early acute myocardial infarction. In patients with acute myocardial infarction, intravenous streptokinase recanalizes 40-45 percent of occluded coronary arteries and reduces mortality by 25 percent; it costs approximately $200 for a therapeutic dose of 1,500,000 units. Recombinant tissue-type plasminogen activator (rt-PA) is more potent for coronary arterial thrombolysis, producing both more rapid and more frequent (65-70 percent) reperfusion, but it costs over $1,000 for a therapeutic dose of 100 mg. Side effects (mainly bleeding) and the incidence of reocclusion associated with the use of streptokinase and rt-PA are not markedly different. Whether the higher efficacy of rt-PA will translate into a comparably larger reduction of mortality remains to be determined in large comparative clinical trials. Both agents are available for clinical use.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:New developments in thrombolytic therapy. 218 Jan 14
The fibrinolytic system comprises a proenzyme, plasminogen, which can be activated to the active enzyme
plasmin
, that will degrade fibrin by different types of plasminogen activators. Inhibition of fibrinolysis may occur at the level of
plasmin
or at the level of the activators. Fibrinolysis in human blood seems to be regulated by specific molecular interactions between these components. In plasma, normally no systemic plasminogen activation occurs. When fibrin is formed, small amounts of plasminogen activator and plasminogen adsorb to the fibrin, and
plasmin
is generated in situ. The formed
plasmin
, which remains transiently complexed to fibrin, is only slowly inactivated by alpha 2-antiplasmin, while
plasmin
, which is released from digested fibrin, is rapidly and irreversibly neutralized. The fibrinolytic process, thus, seems to be triggered by and confined to fibrin.
Thrombus
formation may occur as the result of insufficient activation of the fibrinolytic system and (or) the presence of excess inhibitors, while excessive activation and/or deficiency of inhibitors might cause excessive
plasmin
formation and a bleeding tendency. Evidence obtained in animal models suggests that tissue-type plasminogen activator, obtained by recombinant DNA technology, may constitute a specific clot-selective thrombolytic agent with higher specific activity and fewer side effects than those currently in use.
...
PMID:The fibrinolytic system in man. 242 Apr 82
Fragment E1 is a fragment of human fibrin, produced by controlled
plasmin
digestion of cross-linked fibrin. It comprises the N-terminal regions of all six polypeptide chains of fibrin. It has been shown to contain a pair of dimeric binding sites which are complementary in binding to sites in the D domains of fibrin which are formed when fibrin polymerizes, so fragment E1 binds to fibrin dimers and polymers but not fibrin monomer or fibrinogen. Radioiodinated fragment E1 has been shown to localize in venous thrombi in a pig model.
Thrombus
/blood ratios of up to 100: 1 were obtained at 24 h post injection, in thrombi up to 5 days old at the time of tracer injection. In humans, deep-venous thrombi were visualized within 30 min of 123I-labelled fragment E1. Fragment E1 exhibits very rapid blood disappearance, which enhances its ability to produce high thrombus/blood ratios at early times. The thrombus uptake of labelled fragment E1 is not affected by heparin. Fragment E1 has been derivatized with metal chelating groups [diethylene-triaminepentaacetic acid (DTPA) and deferoxamine], to facilitate labelling with 111In and 67Ga. Although these labels appeared promising in animal models, they have not yet achieved success in man. Clinical trials are continuing with 123I-labelled fragment E1, which is felt to be a most promising radiopharmaceutical for thrombus localization.
...
PMID:Imaging thrombi with radiolabelled fragment E1. 306 13
Since thrombi continue to incorporate fibrin during lysis we tested the effect of pretreatment with ancrod, a defibrinating agent from Malaysian pit viper venom, on thrombolysis with urokinase and streptokinase.
Thrombi
were induced by copper-coils in the carotid arteries of the dogs, weighed after 1 hour and inserted into the femoral arteries of the same animals. They were then exposed for 15 min to iv boluses of streptokinase 10,000 U/kg, urokinase 10,000 U/kg and urokinase 25,000 U/kg with or without pretreatment with ancrod. Ancrod depleted fibrinogen within 5 min and enhanced the lytic effect of streptokinase from 25 +/- 8% to 59 +/- 13% (p less than .05), urokinase 10,000 U/kg from 16 +/- 11% to 66 +/- 18% (p less than .01) and urokinase 25,000 U/kg from 27 +/- 17% to 85 +/- 8% (p less than .001) of the initial thrombus weight. Ancrod itself did not activate plasminogen to
plasmin
. We conclude that ancrod enhances thrombolysis probably by depleting fibrinogen and preventing new fibrin incorporation into the thrombus during lysis.
...
PMID:Ancrod enhances the thrombolytic effect of streptokinase and urokinase. 366 Mar 51
A new quantitative model for the examination of potential thrombolytic agents is described. A thrombus was formed in the inferior vena cava of the rabbit, using 125 I-labelled fibrinogen mixed with a standard amount of thromboplastin. The thrombus was anchored securely by means of a woollen thread inserted longitudinally into the lumen of the vein.
Thrombotic
extension of the radioactive clot and rethrombosis during the experimental period (5 h) were prevented by the administration of intravenous heparin. In control animals, the thrombus remained stable and there was no rise in te radioactivity of the circulating blood during 5 h. In animals given thrombolytic agents, lysis could be followed continuously by measuring the rise in blood radioactivity. Total lysis was determined by counting the radio-label in the residual clot after treatment. The model has been used to study the thrombolytic activity of streptokinase-human plasminogen complexes, activator-free plasmins of human and porcine origin, and human
plasmin
produced by streptokinase (SK) activation of human plasminogen. The role of activator complexes in the thrombolytic activity of SK-activated
plasmin
is discussed.
...
PMID:The evaluation of plasmin and streptokinase activator complexes in a new rabbit model of venous thrombosis. 645 12
Thrombus
formation is recognized pathologically in the affected arteries and is supposed to play a major role in the pathogenesis of Takayasu's arteritis; however, hemostatic conditions in this disorder have not been elucidated fully. We determined plasma levels of molecular markers for platelet activity (platelet factor 4; PF4, beta-thromboglobulin; beta TG), thrombotic status (thrombin-antithrombin III complex; TAT, fibrinopeptide A; FPA), fibrinolytic status (
plasmin
-alpha 2-plasmin inhibitor complex; PIC, D-dimer), and endothelial injury (von Willebrand factor antigen; vWF:Ag, thrombomodulin; TM) in 30 patients with Takayasu's arteritis and 20 age-matched control subjects. Plasma levels of PF4, beta TG, TAT, FPA and D-dimer, but not PIC, in patients with Takayasu's arteritis were substantially higher than those in normal control subjects. The levels of these markers were not different between the active and inactive stages of the disease. Plasma levels of vWF:Ag in patients with Takayasu's arteritis did not differ significantly from those in normal subjects, and plasma levels of TM were significantly lower than those in normal subjects. In patients with Takayasu's arteritis, platelet and coagulation activities are significantly increased, leading to hypercoagulable state and thrombus formation, although there is little, if any, endothelial damage.
...
PMID:Hypercoagulable state in patients with Takayasu's arteritis. 872 10
We describe a new method for quantification of fibrin in thrombi formed in native human blood at venous and arterial shear conditions in a parallel-plate perfusion chamber device.
Thrombi
consisting of various proportions of fibrin and platelets were digested by
plasmin
. Fibrin deposition (micrograms/cm2) was calculated from the measured D-dimer levels. Fibrin deposition in thrombi formed on a tissue factor (TF)-rich surface increased with increasing shear rate from 37 micrograms/cm2 at 100/s to 77 micrograms/cm2 at 2600/s (significant at 95%, ANOVA). The plasma levels of thrombin-antithrombin III complexes (TAT) increased in concert. In contrast, fibrin deposition in thrombi formed on collagen fibrils and the corresponding TAT plasma levels were independent of the shear rate and much lower than those elicited by the TF-rich surface (significant at 95%, ANOVA). The intra-individual variation in fibrin deposition was on average 10%, whereas the inter-individual differences were > 500%. Such a large inter-individual difference has not been detected by morphometry which usually is employed in similar studies. The present method is more accurate and less time-consuming than the morphometric approach. The novel method measures fibrin on the surface and in and around the thrombi, thus total deposited fibrin. In contrast, the morphometry approach quantifies surface coverage with fibrin only, thus being semiquantitative at best.
...
PMID:Immunologic quantification of fibrin deposition in thrombi formed in flowing native human blood. 890 99
Vipera lebetina fibrinogenase (VlF) was shown to render fibrinogen incoagulable and to solubilize fibrin. The fibrinogenolytic activity of this enzyme was found to be 33 mg fibrinogen/min/mg protein. The study of the specificity of this enzyme revealed that it has no effect on purified factor X, prothrombin and protein C and on the specific chromogenic substrates of their active form. Plasminogen was not activated by VlF but slightly degraded. We have also compared the effect of VlF and
plasmin
on fibrinogen and shown that these two enzymes have a different sites of cleavage. This enzyme inhibited human platelet aggregation on PRP initiated by ADP and collagen but was without effect on the aggregation of washed rabbit platelets using thrombin as agonist. Administration of VlF in rat did not show any necrosis or hemorrhage in treated rats organ's. We therefore, examined the thrombolytic activity of VlF in a rat model of venous thrombosis.
Thrombus
was produced in the posterior vena cava by injection of human fibrinogen and thrombin. Injection of 5 mg/Kg body weight showed an evident flow restoration after one hour and measurement of the fibrinogen level a decrease of about 30% after 3 hrs. VlF's action is not dependent on plasminogen activators and may act synergistically with them, thereby providing an intriguing potential clinical application for dissolution of blood clots.
...
PMID:Further characterization and thrombolytic activity in a rat model of a fibrinogenase from Vipera lebetina venom. 917 44
Thrombus
formation at the site of atherosclerotic lesions, especially on a ruptured plaque, plays a central role in the "atherothrombosis" hypothesis. An activation of the hemostasis and a disturbed fibrinolysis are known. These alterations are especially marked in patients with acute coronary syndromes. In stable coronary artery disease, fibrinogen is elevated. Furthermore, minor alterations of the contact phase factor VII and consecutively of the thrombin system are detectable depending on the study population. Thrombin generation and activation become marked in patients with unstable angina pectoris or acute myocardial infarction. Possible reasons for this activation are an activation of the contact phase factor XII system and the release of tissue factor both from the ruptured plaque and from stimulated monocytes. The fibrinolytic system is markedly altered already in patients with stable coronary heart disease. Increased levels of tissue-type plasminogen activator and of urokinase-type plasminogen activator/receptor are measurable in atheromas. Tissue-type plasminogen activator mass concentration is systemically elevated already at early stages of atherosclerosis. Especially in patients with increased risk for acute coronary syndromes, the plasminogen activator inhibitor activity is significantly increased. Furthermore, a hypercoagulative state with increased d-dimer levels and
plasmin
-antiplasmin complexes can be measured. The alterations of hemostasis and especially of fibrinolysis are detectable for prolonged time period and persist much longer than the clinical symptoms of the patients. The increased plasminogen activator inhibitor activity is associated with the metabolic syndrome and constitutes an (in part genetically determined) disturbance in patients with stable or unstable coronary heart disease. However, the large intra- und interobserver as well as diurnal variability of this marker limits its use as a routine measure for risk stratification in patients. Alterations of the hemostasis and disturbances of fibrinolysis are detectable during the chronic as well as the acute phase of atherosclerosis. These changes are best documented for coronary heart disease, whereas less data are available for other manifestations of atherosclerosis. The use of newly developed molecular markers for single reaction steps of pathways instead of global functional tests and of new molecular biological methods did considerably improve the detailed knowledge on the pathomechanisms of the development of atherosclerosis, making the development of targeted therapies, e.g., against receptors possible. Future studies will investigate the quantitative impact of the various activated pathways (cause or reaction) and the effects of interventions on these pathomechanisms in patients with acute coronary syndromes. Studies will have to focus especially on the meaning of polymorphisms, early changes in the development of atherosclerosis and interactions with inflammatory processes.
...
PMID:[Blood coagulation and fibrinolysis in arteriosclerosis]. 1041 53
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