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: UMLS:C0432222 (SEM)
47,337 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Neutrophils (PMN) are important in the cellular phase of blood fibrino lytic activity (FA). The contribution of monocytes (MC), which have FA, is unclear. To determine the relative roles of these cells to activity in normal blood, we examined, by solid phase radiofibrin assay, FA of normal blood and plasma, and of purified PMN and MC, with and without plasminogen (PLG), mini-plasminogen (mPLG), the other major elastase fragment of PLG, or autologous plasma. PMN alone (0.5 x 10(6)/ml) had striking activity (292 +/- 25 SEM ng fibrin lysed/h; n = 10 normal subjects) while MC alone (0.5 x 10(6)/ml) had mean FA of 32 +/- 4 ng/h, which could be accounted for by contaminating PMN (36 +/- 8 ng/h). Thus, in a 1 h assay (when cellular FA accounts for 70-80% of FA in whole blood), normal numbers of MC (0.5 x 10(6)/ml) had no detectable FA when assayed with PLG or normal plasma. With longer assay times (2-6 h), PLG-dependent (plasminogen activator, PA) activity was demonstrated with mixtures of MC and PLG or plasma. This PA activity was released into the medium and required prior contact of MC and an intact, soluble PLG molecule for PA activity to be detected in medium (suggesting a PLG-MC triggering mechanism), since activity was reduced or absent when MC were exposed to mPLG, the other major elastase fragment of PLG, or solid phase PLG. Exposure of MC to solid phase fibrin did not result in PA release. MC PA activity was little affected by cycloheximide pretreatment, indicating preformed rather than newly synthesized PA. By SDS-PAGE and fibrin zymography, MC extracts revealed a single PA band with features of pro-urokinase (single chain urinary-type PA): Mr 55,000, inhibition by antiurokinase antibody (but not by anti-tPA), and resistance to inhibition by DFP. By ELISA assay, approximate normal monocyte content of this PA (as Mr 55,000 urokinase) was 0.03 fg (3.3 x 10(8) molecules) per cell.
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PMID:Fibrinolytic activity of normal human blood monocytes. 292 5

Development of appropriate clinical dose regimens of individual plasminogen activators such as tissue-type plasminogen activator (t-PA) has generally relied primarily on nonpharmacological endpoints such as angiographically documented clot lysis. The recent availability of monoclonal antibodies that differentiate products of plasmin lysis of fibrin from those of lysis of fibrinogen should permit delineation of the relative fibrin specificity of different plasminogen activators or of different doses of the same activator in vivo. Thus, their use should accelerate and facilitate development of implementation of optimal dose regimens for diverse activators and combinations of activators. The present study was designed to determine whether assay of such markers effectively differentiates effects of two doses of t-PA, each of which are comparably effective in opening infarct-related arteries, in patients studied at the Washington University Clinical Unit of the National Institutes of Health-sponsored Thrombolysis in Myocardial Infarction Trial. The extent of lysis of fibrin and of lysis of fibrinogen by plasmin resulting from administration of t-PA was evaluated in 19 patients given 150 mg t-PA over 6 hours and 17 given 100 mg over the same interval by assay of serially obtained plasma samples for crosslinked fibrin degradation products (XL-FDP) and B beta 1-42, a peptide released when fibrinogen is degraded to fragment X by plasmin. XL-FDP were markedly elevated after 6-hour infusions of both doses of t-PA. However, elevations were not more with the higher dose [peak value, 4,321 +/- 986 ng/ml (+/- SEM)] compared with the lower dose (3,397 +/- 1,096 ng/ml) (p = NS).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Characterization in vivo of the fibrin specificity of activators of the fibrinolytic system. 313 54

Increased production of the serum protease plasminogen activator is associated with tissue damage. The in vitro production of plasminogen activator by alveolar macrophages obtained by bronchoalveolar lavage was studied in 22 normal subjects and 28 patients with interstitial lung disease to determine whether plasminogen activator is produced by normal alveolar macrophages and whether this is increased in patients with interstitial lung disease. Plasminogen activator activity, measured with an iodine-125 labelled fibrin release assay, was found to be dependent on time, effector cell numbers, and plasminogen concentration. Plasminogen activator production by alveolar macrophages from 14 normal non-smokers and eight normal smokers was similar and the mean value was 0.78 (SEM 0.16) urokinase (UK) units x 10(-8)/cell/hour. Alveolar macrophages from the seven patients with cryptogenic fibrosing alveolitis and six patients with histiocytosis-X produced more plasminogen activator (1.89 (0.25) and 4.54 (1.3) x 10(-8) UK units/cell/hour respectively) than macrophages from normal subjects (p less than 0.05), whereas those from 15 patients with sarcoidosis did not (1.09 (0.2) x 10(-8) UK units/cell/hour). Exposure of normal alveolar macrophages to immune complexes enhanced plasminogen activator production to 2.07 (0.27) x 10(-8) UK units/cell/hour, whereas exposure to products of activated T cells and to purified gamma interferon reduced plasminogen activator production (to 0.38 (0.11) and 0.62 (0.11) x 10(-8) UK units/cell/hour respectively). These studies show that plasminogen activator is produced by normal human alveolar macrophages and that its production is increased in patients with cryptogenic fibrosing alveolitis and histiocytosis-X.
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PMID:Production of plasminogen activator by alveolar macrophages in normal subjects and patients with interstitial lung disease. 321 49

Dissemination of neoplastic cells within the body involves invasion of blood vessels by tumor cells. Since platelets have been shown to contribute to this process, we studied the interaction in vitro of platelets and malignant cells with the vascular endothelium and its underlying basement membrane-like ECM. A metastatic subline (ESb) of the methylcholanthrene-induced DBA/2 T-lymphoma invaded the vascular endothelium at a higher rate than its parental nonmetastatic (Eb) subline. ESb cells also exhibited a much higher ability to degrade the proteoglycan scaffold of the ECM by means of a specific HS degrading endoglycosidase (heparanase). The interaction of platelets with this ECM was associated with platelet activation, aggregation, and degradation of HS by means of the platelet heparanase. Degradation of ECM-HS was facilitated by proteolytic activity that produced a more accessible substrate for further cleavage by heparanase. A similar enhancement was exerted by plasminogen via the activity of the tumor cells or ECM associated PAs. Heparin and chemically modified heparins that lack anticoagulant activity inhibited degradation of the ECM-HS by heparanase. Interaction of platelets and lymphoma cells with ECM covered with vascular endothelial cells was investigated by SEM and by determination of ECM-HS degradation products. SEM studies demonstrated that platelets may adhere to minor gaps between adjacent endothelial cells and degrade the ECM-HS. Platelets were also shown to recruit lymphoma cells into these interendothelial gaps, suggesting that by binding to ECM and release of heparanase, platelets may play an active role in tumor cell invasion and metastasis. Our observation that nonanticoagulant heparins may interfere with heparanase-mediated degradation of ECM-HS suggests a potential therapeutic use for such heparins in neoplastic disorders.
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PMID:Role of heparanase in platelet and tumor cell interactions with the subendothelial extracellular matrix. 332 38

21 patients (aged 28-81 years) with recent subarachnoid hemorrhage (10 saccular aneurysms, 3 arteriovenous angiomas, 8 normal angiograms) were continuously infused with tranexamic acid at a dosage of 5 g daily for up to 14 days. Therapy was surveyed by daily measurement of the available plasminogen activity (aPl) with the chromogenic substrate S-2251 and by a modified bioassay, whereby the concentration of tranexamic acid was determined thrombelastographically and expressed as antifibrinolytic equivalent. In addition, a battery of blood coagulation tests was performed daily. 5 patients died, 1 after postoperative stroke, 3 as a result of general complications during intensive care treatment, but only 1 due to rebleeding. 4 patients were successfully operated during the first week, 1 patient after 2 weeks. aPl fell from 99.2% (SEM 3.0%, n = 21) before treatment to 72.9% (SEM 3.5%, n = 21) after 24 h and to the therapeutic level between 50 and 60% from day 2 on. The mean steady state of the antifibrinolytic equivalent corresponded to about 150 micrograms/ml of tranexamic acid during infusion. Intra- and interindividual changes were relatively small for aPl, when compared with the antifibrinolytic equivalent measured by the bioassay. In 2 elderly patients tranexamic acid infusion had to be terminated because of clinical and laboratory signs of disseminated intravascular coagulation, whereby aPl fell below the therapeutic range, elucidating that this method is a sensitive indicator for a hypercoagulable state and useful for the surveillance of therapy with antifibrinoltic agents.
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PMID:Monitoring of antifibrinolytic treatment in subarachnoid hemorrhage. 399 57

Although the biological function of histidine-rich glycoprotein (HRG) is unknown, it may serve as an antifibrinolytic agent by interfering with the binding of plasminogen to fibrin. To define the role of HRG, plasma titers were measured by single radial immunodiffusion in eleven patients with thromboembolism before and after streptokinase (SK) therapy and were found unchanged (84.7 +/- 6.2%, M +/- SEM before, and 99.5 +/- 6.3% after 12 hr of SK therapy). The HRG peaks on crossed immunoelectrophoresis before and after SK infusion were also unchanged. Alpha 2-plasmin inhibitor fell during SK infusion as measured immunologically (102.0 +/- 15.0% before and 28.0 +/- 1.6% after 12 hr of therapy) and fibrinogen-fibrin degradative products appeared (mean titer of 1:2,048 after 12 hr of therapy), indicating that the infused SK was biologically active. Plasminogen levels before therapy were normal, as measured functionally and immunologically (105.4 +/- 4.9% and 96.0 +/- 5.6%, respectively), and both decreased after 12 hr of SK therapy (15.2 +/- 5.6% and 50.8 +/- 4.3%). No changes in functional antithrombin III titer, Hageman factor antigen level, or fibrinogen concentration, as measured turbidimetrically, were observed. Thus, although these data do not allow one to make any firm conclusions regarding the physiologic role of this protein in fibrinolysis, they do not exclude its increased catabolism, compensated by increased production, in patients undergoing fibrinolytic therapy.
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PMID:Histidine-rich glycoprotein and changes in the components of the fibrinolytic system after streptokinase therapy in patients with pulmonary thromboembolism. 401 25

A simple venous thrombosis model in rabbits was used for the quantitative evaluation of the thrombolytic effect of human extrinsic (tissue-type) plasminogen activator as compared with urokinase.A thrombus was formed in an isolated segment of the jugular vein from a mixture of (125)I-labeled fibrinogen, whole rabbit blood, and thrombin. In order to immobilize the thrombus during lysis, it was formed around a woolen thread introduced longitudinally in the lumen of the vein. Thrombotic extension of the clot was prevented by subcutaneous injection of heparin. The extent of thrombolysis was measured as the difference between the radioactivity introduced in the clot and that recovered in the vein segment at the end of the experiment. In control animals the extent of thrombolysis was 5.6+/-1.4% (n = 5) after 6 h, 14.5+/-1.7% (n = 10) after 30 h, 16.0+/-1.5% (n = 11) after 78 h, and 48.1+/-2.7% (n = 10) after 174 h (mean+/-SEM). Extrinsic (tissue-type) plasminogen activator, highly purified from the culture fluid of a human melanoma cell line, was administered systemically or locally over a time period of 4 h and the percent thrombolysis measured 2 h after the end of the infusion. One- and two-chain extrinsic plasminogen activator had very similar thrombolytic potency. Systemic infusion resulted in a dose-dependent degree of thrombolysis. The activator-induced thrombolysis, after infusion of 100,000 IU ( congruent with1 mg protein), was approximately 75% for fresh clots, 35% for 1-d-old clots, 30% for 3-d-old clots, and 50% for 7-d-old clots. The thrombolytic activity of urokinase was more than five times lower than that of extrinsic plasminogen activator: Infusion of 500,000 IU resulted in approximately 40% lysis of fresh clots and 25% of 1-3-d-old clots, while 7-d-old clots appeared to have become resistent to urokinase. Local infusion resulted in a 5-10 times higher thrombolytic effect of both extrinsic plasminogen activator and urokinase. Thrombolysis with extrinsic plasminogen activator was not associated with systemic activation of the fibrinolytic system as evidenced by unaltered plasma levels of fibrinogen, plasminogen, and alpha(2)-antiplasmin. Systemic infusion of urokinase resulted in significant thrombolysis only at doses that were associated with disseminated plasminogen activation. Local infusion of urokinase required a 5-10-fold higher dose than extrinsic plasminogen activator to obtain a similar degree of thrombolysis, which also occurred in the absence of systemic activation of the fibrinolytic system. It is concluded that the extent of thrombolysis by extrinsic plasminogen activator is mainly determined by the dose of activator and its delivery in the vicinity of the thrombus and much less by the age of the thrombus or the molecular form of the activator. Extrinsic plasminogen activator appears to be superior to urokinase because of its higher (5-10-fold) specific thrombolytic activity and the absence of systemic activation of the fibrinolytic system, which results in defibrinogenation and a bleeding tendency.
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PMID:Thrombolysis with human extrinsic (tissue-type) plasminogen activator in rabbits with experimental jugular vein thrombosis. Effect of molecular form and dose of activator, age of the thrombus, and route of administration. 668 15

Extrinsic (tissue-type) plasminogen activator (plasminogen activator) was isolated either as a single-chain or as a two-chain molecule from the culture medium of a human melanoma cell line. The thrombolytic activity of both molecular forms of activator was investigated in beagle dogs with an experimental femoral vein thrombosis and compared with that of urokinase. The 125I-fibrinogen-labeled thrombus was formed in an isolated 4-cm segment of the vein, aged for 30 min, and the thrombolytic substances were infused over a 4-h period. The degree of thrombolysis was measured 2 h later as the difference between the injected and recovered 125I. In six control animals with a saline infusion the extent of thrombolysis was 16.3 +/- 3.8% (mean +/- SEM), in five dogs receiving 100,000 IU urokinase, 17.4 +/- 3.7% (P less than 0.4) and in four dogs with 1,000,000 IU urokinase 40.6 +/- 4.8% (P less than 0.001). Infusion of 100.000 IU single-chain plasminogen activator in five dogs resulted in 3.5 +/- 7.8% lysis (P less than 0.05) and of 100,000 IU two-chain plasminogen activator in five dogs in 60.1 +/- 10.8% (P less than 0.001). Infusion of 300,000 IU one-chain plasminogen activator yielded 57.5% lysis and of the same amount of two-chain plasminogen activator 72.9%. Significant activation of plasminogen, consumption of alpha 2-antiplasmin, and fibrinogen breakdown in plasma was only observed in animals receiving the high doses of urokinase but not in the saline, plasminogen activator, or the low-dose urokinase groups. It is thus concluded that in this thrombosis model human extrinsic plasminogen activator has a higher specific thrombolytic effect that urokinase. Plasminogen activator also appears to induce thrombolysis without systemic fibrinolytic activation and fibrinogen breakdown.
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PMID:Thrombolysis with human extrinsic (tissue-type) plasminogen activator in dogs with femoral vein thrombosis. 719 39

Three natural variants (wild-type staphylokinase, [R36G, R43H]staphylokinase, and [G34S, R36G, R43H]staphylokinase) of the bacterial plasminogen-activator staphylokinase, a 136-amino-acid protein secreted by certain Staphylococcus aureus strains, have been characterized. These variants differ at amino acid positions 34, 36 and 43 only, and have a very similar plasminogen-activating capacity and conformation in solution, as revealed by fluorescence spectroscopy, dynamic light scattering and circular dichroism. However, the thermostability of these variants is significantly different. At 70 degrees C and 0.5 mg protein/ml, irreversible inactivation occurred with apparent half-life (t1/2) values 0.54 +/- 0.13, 0.81 +/- 0.20 and 3.7 +/- 0.7 h (mean +/- SEM) for wild-type staphylokinase, [R36G, R43H]staphylokinase, and [G34S, R36G, R43H]staphylokinase, respectively, with corresponding values at 0.08 mg/ml of 5.3 +/- 1.4 h and 11 +/- 2.0 h for wild-type staphylokinase and [R36G, R43H]staphylokinase, respectively. Dynamic light-scattering measurements indicated that inactivation was associated with protein aggregation, which precluded accurate determination of transition temperatures and enthalpies of unfolding. 0.08-0.34 mg/ml [G34S, R36G, R43H]staphylokinase, however, did not aggregate at 70 degrees C but underwent unfolding as revealed by a 20% increase in the Stokes' radius and a 30% decrease in circular dichroism. The unfolding was reversible upon cooling and was associated with full recovery of functional activity. Thus, these natural variants of staphylokinase have a different sensitivity to thermal inactivation, that is mediated by reversible unfolding of the protein and concentration-dependent irreversible aggregation. [G34S, R36G, R43H]staphylokinase, the most resistant natural variant, has a stability approaching the minimal requirements for pasteurization, which would facilitate its development for clinical use.
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PMID:The thermostability of natural variants of bacterial plasminogen-activator staphylokinase. 803 5

Endothelial release of tissue plasminogen activator (t-PA) may initiate fibrinolysis. Fibrinolysis and coagulation were investigated in 12 patients undergoing elective coronary artery bypass surgery. Cardiopulmonary bypass (CPB) was 108 +/- 7 min (mean +/- SEM), the time of cold, crystalloid, retrograde cardioplegia 53 +/- 5 min. Arterial and coronary sinus blood were sampled concomitantly before cardioplegia and after release of the aortic cross-clamp, for measurement of t-PA antigen (Ag) and activity, plasminogen activator inhibitor (PAI-1) Ag and activity, t-PA/PAI-1 complex, single chain urokinase (sc-uPA) and urokinase (uPA) plasminogen activators, the fibrin split product D-dimer, thrombin-antithrombin complex (TAT), and the prothrombin split product F 1 + 2. Cardiopulmonary bypass significantly increased t-PA Ag and activity, t-PA/PAI complex, D-dimer, TAT, and F 1 + 2, and decreased PAI-1 Ag and activity in arterial blood; uPA and sc-uPA were unchanged. The tissue plasminogen activator antigen was higher in coronary sinus than arterial blood after 1 (39 +/- 5 vs 24 +/- 4 ng/ml, P < 0.003), 4 (P < 0.003), and 10 min (P < 0.004) reperfusion. Tissue plasminogen activator activity and t-PA/PAI complex increased, PAI-1 activity decreased, while all other parameters were unchanged across the coronary circulation. In conclusion, CPB induces fibrinolysis and coagulation. Cold cardioplegia induces t-PA release in the coronary circulation, denoting a postischemic antithrombotic function of the coronary endothelium. Tissue plasminogen activator may be used to evaluate endothelial stimulation or injury induced by CPB, or by different regimens of myocardial protection.
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PMID:Fibrinolysis during cardiac surgery. Release of tissue plasminogen activator in arterial and coronary sinus blood. 808 78


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