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: EC:3.4.21.68 (tissue plasminogen activator)
11,311 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In order to evaluate the influence of dilution, pH and ionic strength on the precipitation of t-PA and PAI-1 during euglobulin precipitation, we measured t-PA Ag, PAI-1 Ag and fibrinolytic activity in the euglobulin fraction made of pooled plasma from liver cirrhosis patients, under various conditions by changing pH, ionic strength and degree of dilution. The precipitation of t-PA Ag in the euglobulin fraction was enhanced by decreasing the ionic strength and greatest at pH 6.0. The fibrinolytic activity in the euglobulin fraction showed consistent changes with t-PA Ag under varying pH and ionic strength. The precipitation of t-PA Ag was not influenced by the dilution factor but the larger the dilution factor, the greater the PAI-1 and the smaller the fibrinolytic activity in the euglobulin fraction. PAI Ag in euglobulin fraction showed consistent changes with t-PA Ag in the euglobulin fraction regardless of the changes in ionic strength and pH. The amount of precipitation of t-PA and PAI-1 was increased by the presence of dextran sulfate, under varying pH, ionic strength and dilution conditions. Our results show that the currently used conditions for standard euglobulin precipitation are the most favorable for t-PA precipitation into the euglobulin fraction. The fibrinolytic activity exerted in the euglobulin fraction seems to depend on the amount of t-PA-PAI-1 complex rather than minimized protease inhibitor in the euglobulin fraction.
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PMID:The effect of dilution, pH and ionic strength of plasma on t-PA precipitation in euglobulin fraction. 130 75

The goal of the study was to assess if aprotinin, a protease inhibitor, could be used to antagonize in vivo the effects of recombinant tissue-type plasminogen activator (rt-PA). The time course of the lysis of a radioactive jugular vein thrombus was monitored continuously with an external gamma counter in anesthetized rabbits. Recombinant t-PA (0.25 mg) was given intravenously as a bolus injection (10% of the dose), followed by a 4 h infusion (90% of the dose). Rabbits received aprotinin 20 min after the start of the infusion as an intravenous bolus injection at a dose of 60,000 IU/kg (n = 4) or 20,000 IU/kg (n = 4). The rate of lysis in the different groups was compared 2, 60 and 180 min after aprotinin administration. Both doses of aprotinin immediately stopped thrombolysis. Thrombolysis was still blocked at 180 min with the highest dose but not with the lowest dose. Moreover, aprotinin could prevent the increase in bleeding time secondary to the injection of rt-PA. These results suggest that aprotinin might be used in vivo as an antidote for rt-PA.
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PMID:Aprotinin: an antidote for recombinant tissue-type plasminogen activator (rt-PA) active in vivo. 169 42

Plasminogen activator inhibitor 1 (PAI-1) is the fast-acting inhibitor of both tissue-type and urokinase-type plasminogen activators (t-PA, u-PA) and is an essential regulatory protein of the fibrinolytic system. In the presence of either the protein vitronectin or the glycosaminoglycan heparin, PAI-1 is also an efficient inhibitor of thrombin. To assess whether these cofactors turn PAI-1 into a general protease inhibitor or whether their influence is restricted to thrombin, the second-order association rate constants between PAI-1 and the human plasma proteases t-PA, u-PA, plasmin, thrombin, Factor Xa (FXa), and Factor XIIa (FXIIa) in the absence and in the presence of either vitronectin or heparin are determined. In addition, the role of the PAI-1 reactive site P3 to P3' residues for the specificity of inhibition was studied by using PAI-1 reactive site mutants. Our results show that: (1) Heparin exclusively increases the rate of inhibition of thrombin by PAI-1, whereas in the presence of heparin the rate of inhibition of the other proteases is not altered; (2) Vitronectin is an obligatory cofactor for the inhibition of thrombin by PAI-1. In addition, vitronectin moderately increases the rate of inhibition by PAI-1 of u-PA and of plasmin, but does not alter the rate of inhibition of t-PA, FXa, or FXIIa; (3) Apart from the important role of the P1 residue, no consensus can be presented on the nature of other residues within the P3 to P3' region with regard to target protease specificity.
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PMID:On the target specificity of plasminogen activator inhibitor 1: the role of heparin, vitronectin, and the reactive site. 171 20

A low molecular weight platelet inhibitor of factor XIa (PIXI) has been purified 250-fold from releasates of washed and stimulated human platelets. Molecular weight estimates of 8400 and 8500 were determined by gel filtration and SDS-polyacrylamide gel electrophoresis, respectively, although a second band of Mr 5000 was present upon electrophoresis. The inhibitor does not appear to be one of the platelet-specific, heparin-binding proteins, since it neither bound to nor was affected by heparin. An amount of PIXI which inhibited by 50% factor XIa cleavage of the chromogenic substrate S2366 (Pyr-Glu-Pro-Arg-pNA-2H2O) only slightly inhibited (5-9%) factor XIIa, plasma kallikrein, plasmin, and activated protein C and did not inhibit factor Xa, thrombin, tPA, or trypsin, suggesting specificity for factor XIa. Kinetic analyses of the effect of PIXI on factor XIa activity demonstrated mixed-type, noncompetitive inhibition of S2366 cleavage and of factor IX activation with Ki's of 7 x 10(-8) and 3.8 x 10(-9) M, respectively. Immunoblot analysis showed that PIXI is not the inhibitory domain of protease nexin II, a potent inhibitor of factor XIa also secreted from platelets. Amino acid analysis showed that PIXI has no cysteine residues and, therefore, is not a Kunitz-type inhibitor. PIXI can prevent stable complex formation between alpha 1-protease inhibitor and factor XIa light chain as demonstrated by SDS-polyacrylamide gel electrophoresis. The inhibition by PIXI of factor XIa-catalyzed activation of factor IX and its capacity to prevent factor XIa inactivation by alpha 1-protease inhibitor, combined with the specificity of PIXI for factor XIa among serine proteases found in blood, suggest a role for PIXI in the regulation of intrinsic coagulation.
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PMID:A low molecular weight platelet inhibitor of factor XIa: purification, characterization, and possible role in blood coagulation. 173 24

To elucidate the mechanism by which activation of the contact system of blood coagulation leads to expression of fibrinolytic activity, we have determined the molecular characteristics of the plasminogen activators present in dextran sulfate-treated euglobulin fractions by electrophoretic-zymographic analysis and specific immunoadsorption. In addition to free and protease inhibitor-bound tissue-type plasminogen activator (t-PA), dextran sulfate precipitates of euglobulins contained the complex formed between plasma kallikrein and C1-inhibitor, an indicator of prekallikrein activation. These precipitates also contained substantial fibrinolytic activity related to urinary-type plasminogen activator (u-PA). Autoradiographic analysis was then used to evaluate the cleavage of 125I-single-chain u-PA (prourokinase) in dextran sulfate euglobulins as well as after exposure to kallikrein or beta-factor XIIa. This analysis supported the conclusion that plasma kallikrein-mediated cleavage and activation of single-chain u-PA is the mechanism operative for the development of lytic activity in euglobulin precipitates following activation of the contact system.
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PMID:Plasminogen activators in dextran sulfate-activated euglobulin fractions: a molecular analysis of factor XII- and prekallikrein-dependent fibrinolysis. 246 92

Three types of permanent Chinese hamster ovary (CHO) cell lines with different amplified expression constructs that abundantly secrete derivatives of human tissue-type plasminogen activator (t-PA) were established. The first one expresses a deletion derivative in which the kringle 2 domain (K2) has been removed (FGK1L). In the second derivative, the growth-factor-homologous domain (G) has also been deleted (FK1L); a third line expresses a duplication derivative of K2 (FK2K2L) lacking the (G) and kringle 1 (K1). All deletion derivatives were constructed according to the exon-intron organization of the gene. We have analyzed the secreted proteins and the fibrinogen-stimulated plasminogenolytic activity as a function of different culturing conditions (fetal calf serum, aprotinin) of the cells. The specific activities of the two deletion derivatives (FGK1L and FK1L) were only 10-20% of the specific activity of t-PA. Surprisingly, the specific activity of the K2-duplication derivative, FK2K2L, was three times higher than that of t-PA. These data were correlated with the morphological properties of CHO cells constitutively secreting the described derivatives under different culturing conditions. CHO cells secreting the deletion derivatives (FGK1L and FK1L) remained attached to the surface of the petri dishes. Cell lines secreting the duplication derivative FK2K2L detached from the surface even in the presence of the protease inhibitor aprotinin.
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PMID:Functional topology of human tissue-type plasminogen activator: characterization of two deletion derivatives and of a duplication derivative. 247 7

Inhibition of in vitro platelet aggregation and release of contents of platelet granules is necessary in order to assess accurately platelet activation in vivo. This can be accomplished by using a variety of inhibitors added to blood collection containers. An additive mixture of citrate, theophylline, adenosine, and dipyridamole (CTAD) provides a practical alternative to a mixture of acid citrate dextrose (ACD), acetylsalicylic acid (aspirin), and prostaglandin E1 (PGE1) because of the stability problems associated with PGE1. Inhibition of in vitro fibrinolysis is essential for the accurate measurement of fibrin degradation products (FDP). This can be accomplished by using a mixture of thrombin, soybean trypsin, or aprotinin into which blood is collected. However, in patients receiving heparin, the fibrinolysis inhibitor mixture is ineffective unless it is supplemented with reptilase. With increasing use of recombinant tissue-type plasminogen activator therapy (rt-PA), an inhibitor such as D-phenylalanine-proline-arginine-chloromethylketone (PPACK) used as a blood collection additive is superior to a conventional protease inhibitor, such as aprotinin.
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PMID:Inhibition of in vitro platelet aggregation and release and fibrinolysis. 250 43

Rat testicular peritubular cells in culture secrete an inhibitor of plasminogen activator (PA) activity. Conditioned serum-free medium from secondary cultures of peritubular cells (PcMEM) was concentrated and then fractionated by gel exclusion chromatography. Under native or denaturing conditions, PA inhibitor (PA-I) activity appeared in fractions having a molecular weight of approximately 55,000. The PA-I inhibited the tissue-type plasminogen activator, and also that of the two-chain form of urokinase, but not the one-chain form. Addition of guanidine HCl (4 M) to PcMEM resulted in a large increase of inhibitory activity. The 55,000 molecular weight PA-I band in PcMEM reacted with antibodies against plasminogen activator inhibitors produced by bovine vascular endothelial cells, or by human fibrosarcoma cells, as detected by immunoadsorption experiments, by immunoblotting, and by reverse fibrin autography. We describe other characteristics of the protease inhibitor produced by testicular peritubular cells, and we discuss its possible functions in the control of PA activity in the seminiferous tubule at different stages of spermatogenesis.
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PMID:Rat testicular peritubular cells in culture secrete an inhibitor of plasminogen activator activity. 283 45

Urokinase-related proteins in human urine occur mainly as a 1:1 complex of urokinase with an inhibitor (Stump, D. C., Thienpont, M., and Collen, D. (1986) J. Biol. Chem. 261, 1267-1273). BALB/c mice were immunized with this urokinase-urokinase inhibitor complex and spleen cells fused with mouse myeloma cells, resulting in hybridomas producing monoclonal antibodies. Three antibodies reacting with the complex but not with urokinase were utilized to develop a sensitive (0.5 ng/ml) enzyme-linked immunosorbent assay for the urokinase inhibitor, which was used for monitoring its purification by chromatography on zinc chelate-Sepharose, concanavalin A-Sepharose, SP-Sephadex C-50, and Sephadex G-100. A homogenous glycoprotein of apparent Mr 50,000 was obtained with a yield of 40 micrograms/liter urine and a purification factor of 320. One mg of the purified protein inhibited 35,000 IU of urokinase within 30 min at 37 degrees C. This protein was immunologically related to both the purified urokinase-urokinase inhibitor complex and to the inhibitor portion dissociated from it by nucleophilic dissociation. It was immunologically distinct from all known protease inhibitors, including the endothelial cell-derived fast-acting inhibitor of tissue-type plasminogen activator, the placental inhibitor of urokinase and protease nexin. In electrophoresis the protein migrated with beta-mobility. Inhibition of urokinase occurred with a second order rate constant (k) of 8 X 10(3) M-1 s-1 in the absence and of 9 X 10(4) M-1 s-1 in the presence of 50 IU of heparin/ml. The urokinase inhibitor was inactive towards single-chain urokinase-type plasminogen activator and plasmin, but it inhibited two-chain tissue-type plasminogen activator with a k below 10(3) M-1 s-1 and thrombin with a k of 4 X 10(4) M-1 s-1 in the absence and 2 X 10(5) M-1 s-1 in the presence of heparin. The concentration of this urokinase inhibitor in plasma from normal subjects determined by immunoassay was 2 +/- 0.7 micrograms/ml (mean +/- S.D., n = 25). The protein purified from plasma by immunoabsorption had the same Mr, amino acid composition, and immunoreactivity as the urinary protein. Furthermore, when urokinase was added to plasma, time-dependent urokinase-urokinase inhibitor complex formation was observed at a rate similar to that observed for the inhibition of urokinase by the purified inhibitor from urine. This urokinase inhibitor, purified from human urine, most probably represents a new plasma protease inhibitor.
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PMID:Purification and characterization of a novel inhibitor of urokinase from human urine. Quantitation and preliminary characterization in plasma. 309 4

Two hundred ninety patients with acute myocardial infarction were treated according to random assignment with an intravenous infusion of either 80 mg of recombinant tissue plasminogen activator (rt-PA) over 3 h or 1.5 million units of streptokinase over 1 h. Patients received an intravenous bolus of heparin (5,000 U [USP]) before pretreatment coronary angiography and a continuous infusion (1,000 U/h) starting 3 h later. The frequency of major and minor hemorrhagic events (33% rt-PA, 31% streptokinase) and associated transfusions (22% rt-PA, 20% streptokinase) were comparable in both groups. More than 70% of bleeding episodes in each group occurred at catheterization or vascular puncture sites. Precipitable fibrinogen levels, measured in plasma samples collected in the presence of a protease inhibitor (aprotinin), declined in rt-PA and streptokinase groups by averages of 26 and 57% at 3 h and by 33 and 58% at 5 h, respectively (rt-PA versus streptokinase, p less than 0.001). At 5 h the plasma plasminogen declined by 57% (rt-PA) and 82% (streptokinase) (p less than 0.001); plasma fibrin(ogen) degradation products were higher in streptokinase-treated patients (244 +/- 12 micrograms/ml, mean +/- SE) than in rt-PA-treated patients (97 +/- 9 micrograms/ml, p less than 0.001). At 27 h, plasma fibrinogen and plasminogen levels were lower and fibrin(ogen) degradation products higher than pretreatment levels in both groups. The frequency of hemorrhagic events was higher in patients with greater changes in plasma factors at 5 h; within treatment groups the levels of fibrin(ogen) degradation products correlated with bleeding complications (p less than 0.005). Thus, in the doses administered, rt-PA induces systemic fibrinogenolysis that is substantially less intense than that induced by streptokinase. The high frequency of bleeding encountered is related to the protocol used, including vigorous anticoagulation, arterial punctures and thrombolytic therapy. These findings emphasize the need for avoidance of invasive procedures and for meticulous care in the selection and management of patients subjected to thrombolytic therapy.
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PMID:Thrombolysis in Myocardial Infarction (TIMI) Trial--phase I: hemorrhagic manifestations and changes in plasma fibrinogen and the fibrinolytic system in patients treated with recombinant tissue plasminogen activator and streptokinase. 312 10


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