Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.21.73 (urokinase-type plasminogen activator)
 10,685 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Plasminogen activator inhibitor-1 (PAI-1), the primary physiological inhibitor of tissue-type plasminogen activator (t-PA) in plasma, is a serine proteinase inhibitor (serpin) that forms a 1:1 stoichiometric complex with its target proteinase leading to the formation of a stable inactive complex. The active, inhibitory form of PAI-1 spontaneously converts to a latent form that can be reactivated by protein denaturants. In the present study we have isolated another molecular form of intact PAI-1 that, in contrast with active PAI-1, does not form stable complexes with t-PA but is cleaved at the P1-P1' bond (Arg346-Met347). Other serine proteinases, e.g. urokinase-type plasminogen activator and thrombin, also cleaved this "substrate" form of PAI-1. Fluorescence spectroscopy revealed conformational differences between the latent, active, and substrate forms of PAI-1. This observation confirms our hypothesis that the three functionally different forms of PAI-1 are the consequence of conformational transitions. Thus PAI-1 may occur in three interconvertible conformations: latent, inhibitor, and substrate PAI-1. The identification of two distinct conformations of PAI-1 which interact with their target protease either as an inhibitor or as a substrate is a previously unrecognized phenomenon among the serpins. Conversion of substrate PAI-1 to its inactive degradation product may constitute a pathway for the physiological regulation of PAI-1 activity.
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PMID:Identification of a conformationally distinct form of plasminogen activator inhibitor-1, acting as a noninhibitory substrate for tissue-type plasminogen activator. 160 44

Plasminogen activator inhibitor-1 (PAI-1) is a serine protease inhibitor that inhibits both tissue-type and urokinase-type plasminogen activators. Expression of PAI-1 is regulated by growth factors, cytokines, and hormones. To determine the molecular mechanisms involved in the basal expression of the rat PAI-1 gene, we have analyzed the cis-acting sequences and the trans-acting factors involved in the transcription of this gene in the HTC rat hepatoma cell line. DNase I protection analyses revealed eight regions within the first 764 base pairs of 5'-flanking sequence that interact specifically with HTC cell nuclear proteins. The proteins that bind to five of the eight footprinted sites were identified as PEA3-, Sp1-, and CTF/NF-1-like proteins using competition electrophoretic mobility shift assays. The expression of fusion genes containing progressive 5' deletions of the rat PAI-1 promoter linked to the chloramphenicol acetyltransferase reporter gene were analyzed in transient transfection experiments in HTC cells. These studies demonstrated the Sp1 and CTF/NF-1 sites to be important for transcriptional activation. Two of the footprinted sites contain the sequence 5'-TTTGn(n)TCAAT-3' and were shown in competition electrophoretic mobility shift assays to bind the same or related protein(s). Sequences containing these sites, from -764 to -628 base pairs, and from -266 to -188 base pairs, were identified in functional studies as repressor elements of transcription.
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PMID:Regulatory sequences and protein-binding sites involved in the expression of the rat plasminogen activator inhibitor-1 gene. 160 87

Thrombolytic therapy successfully reopens obstructed blood vessels in the majority of cases. However, it is not known why a substantial amount of thrombi are resistant to lysis by a fibrinolytic agent. In vitro studies have demonstrated that tissue-type plasminogen activator (t-PA) and plasminogen incorporated in the clot (during formation) increase lysibility. To test whether lysibility of in vivo formed human thrombi is related to their composition, we studied 25 venous thrombi obtained at autopsy and 21 arterial thrombi obtained during embolectomy. Plasminogen activator inhibitor-1 (PAI-1) antigen was measured in a phosphate-buffered saline (PBS) extract of each thrombus; t-PA antigen and plasminogen antigen were determined in a 6 M urea extract of the thrombus, representing bound proteins. Lysibility was measured as weight reduction during 8 h of incubation in PBS containing streptokinase (SK) 100 U/ml, corrected for spontaneous lysis, reflected by weight loss in PBS without SK. In addition, lysibility in SK was compared with lysibility in urokinase (UK) 100 U/ml and in t-PA 200 U/ml. Spontaneous lysis amounted to 29 +/- 5% (mean +/- SEM) and 33 +/- 5% in venous and arterial thrombi, respectively, and inversely correlated with the PAI-1 content of thrombi (r = -0.43, p less than 0.01).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The amount of plasminogen, tissue-type plasminogen activator and plasminogen activator inhibitor type 1 in human thrombi and the relation to ex-vivo lysibility. 161 63

Plasminogen activation by single-chain urokinase-type plasminogen activator or pro-urokinase (pro-UK) is accompanied by the generation of two-chain urokinase (UK) by plasmin which provides a positive feedback. In the present study, the time course of the activation of Glu-plasminogen and of Lys-plasminogen (10 microM) by pro-UK (1.0 nM) was studied. In the presence of native plasminogen (Glu-plasminogen), three distinct phases with different rates of plasmin generation were observed. The initial phase was slow and corresponded to the intrinsic activity of pro-UK as reflected by the activity of a plasmin-resistant mutant (Lys158----Ala). This was followed by a second phase which had the most rapid rate. The third phase had a plasminogen activation rate which was significantly slower than the second and paralleled the rate of activation by UK (1.0 nM). The second phase coincided with the time at which there was only about 50% conversion of pro-UK to UK, whereas the final phase coincided with essentially complete conversion. In the presence of fibrin fragment E-2 (20 microM), previously shown to strongly promote plasminogen activation by pro-UK, the identical phenomenon was observed, but at one-tenth the concentration of pro-UK. The most rapid rate of plasmin generation again coincided with transitional (25-60%) pro-UK to UK conversion. To further examine this phenomenon, the rate of pro-UK to UK conversion was controlled by using kallikrein in the presence of a plasmin inhibitor. In this experiment, the activation of Glu-plasminogen bound to solid-phase fibrin was measured. A similar three-phase sequence was observed, the highest rate of plasmin generation coinciding with about 45% conversion of pro-UK to UK. A mechanism for this transitional state phenomenon was postulated based on the established significantly higher affinity of pro-UK than of UK for Glu-plasminogen. This exceptional property for a proenzyme may enable a transient activity to be generated during the transition from pro-UK to UK corresponding to the more favorable KM of pro-UK and the kcat of UK. This hypothesis was supported by the results from experiments in which Lys-plasminogen was substituted for the Glu form. No transitional state activity was observed, consistent with the relatively high KM of pro-UK against Lys-plasminogen.
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PMID:A transitional state of pro-urokinase that has a higher catalytic efficiency against glu-plasminogen than urokinase. 163 75

We have previously reported that normal pleural leukocytes secrete a urokinase-type plasminogen activator inhibitor (PAI) in culture. In view of the pathogenic effects of asbestos on the pleura, in particular pleural fibrosis, we have extended these observations to crocidolite asbestos-exposed rats. Pleural leukocytes from rats exposed to crocidolite asbestos were found to secrete more PAI in culture than controls. The activity of PAI in pleural leukocyte-conditioned medium increased in a dose-dependent manner in relation to the quantity of asbestos injected into the lung. However, with increasing time post asbestos instillation, there was no significant change in the secretion of PAI by pleural leukocytes in culture compared with earlier time points of crocidolite-exposed rats. Plasminogen activator was not detectable in the conditioned medium at any time point. The data derived from this study may help to elucidate the pathogenesis of some pleural disorders caused by exposure to fibrous dusts in the lungs.
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PMID:Increased production of plasminogen activator inhibitor in vitro by pleural leukocytes from rats intratracheally instilled with crocidolite asbestos. 165 Dec 22

A functional assay for equine plasminogen was established, using urokinase as the activator, a synthetic chromogenic substrate, a computer-assisted centrifugal analyzer, and acidified/neutralized plasma. One documented effect of plasma acidification appears to be inactivation of alpha-2-antiplasmin. Intra- and interassay precision testing yielded coefficients of variation of 4.1% (n = 10) and 5.6% (n = 26), respectively. Plasminogen was stable in equine plasma stored up to 1 week at 4 C and up to 5 months at -70 C. Plasminogen in nonacidified equine plasma was not activated by urokinase, streptokinase, tissue plasminogen activator, or tissue plasminogen activator plus soluble fibrin. Streptokinase also failed to activate plasminogen in acidified/neutralized equine plasma.
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PMID:Chromogenic assay for equine plasminogen. 169 46

Plasminogen activator inhibitor-1 (PAI-1) inhibits the tissue plasminogen activator (tPA) and urokinase activation of plasminogen to plasmin, a protease of trypsin-like specificity which is involved in a number of processes, including fibrinolysis, matrix degradation and angiogenesis. Both phorbol esters and cAMP elevating compounds have been shown to modulate PAI-1 and tPA expression in endothelial cell culture. HBGF-1 (previously designated endothelial cell growth factor) stimulates endothelial cell growth in vitro and is angiogenic in vivo. We have reported that removal of HBGF-1 from human umbilical vein endothelial cell (HUVEC) media results in an approximately 5-fold increase in PAI-1 mRNA levels and in PAI-1 protein secreted into the media by 20 h. Here we report the effects of HBGF-1 on the phorbol ester and cAMP modulation of HUVEC PAI-1 expression. The phorbol ester PMA induced an approximate 5-fold increase in PAI-1 mRNA levels at 4 h, which returned to base line by 20 h, with or without HBGF-1 present in the media. This increase in PAI-1 mRNA levels was mediated by an increase in PAI-1 gene transcription and was abated in the presence of cycloheximide. Treatment of cells with the adenylate cyclase activator forskolin or the phosphodiesterase inhibitor HL 725, in the presence of HBGF-1 or immediately after its withdrawal, decreased PAI-1 mRNA levels and protein secreted into the conditioned media by 20 h. However, forskolin or HL 725 addition had little or no effect on PAI-1 mRNA when added 20 h after HBGF-1 withdrawal. Both the PMA and HBGF-1 modulation of PAI-1 were abolished by treatment with the protein kinase inhibitor H-7. Treatment of HUVEC with HBGF-1 had no acute effect on intracellular inositol phosphate hydrolysis or cAMP levels. Further studies on intracellular pathways involved in HBGF-1 modulation of PAI-1 will enhance our understanding of the role these factors play in cellular proliferation and angiogenesis.
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PMID:Heparin-binding growth factor-1 modulation of plasminogen activator inhibitor-1 expression. Interaction with cAMP and protein kinase C-mediated pathways. 170 36

Plasminogen activator inhibitor type 1 (PAI-1), the fast-acting inhibitor of tissue-type plasminogen activator (t-PA) and urokinase (u-PA), is a member of the serpin superfamily of proteins. Both in plasma and in the growth substratum of cultured endothelial cells, PAI-1 is associated with its binding protein vitronectin, resulting in a stabilization of active PAI-1. Recently, it has been demonstrated that the PAI-1-binding site on vitronectin is adjacent to a heparin-binding site (Preissner et al., 1990). Furthermore, it can be deduced that the amino acid residues, proposed to mediate heparin binding in the serpins antithrombin III and heparin cofactor II, are conserved in PAI-1. Consequently, here we have investigated whether PAI-1 also interacts with heparin. At pH 7.4, PAI-1 quantitatively binds to heparin-Sepharose and can be eluted with increasing [NaCl]. Binding of PAI-1 to heparin-Sepharose can be efficiently competed with heparin in solution (IC50, 7 microM). In the presence of heparin, the protease specificity of PAI-1 toward thrombin is substantially increased. This is shown by (i) quenching of thrombin activity of PAI-1 in the presence of heparin and (ii) induction of the formation of SDS-stable complexes between thrombin and PAI-1 by heparin. In a dose response curve, both effects reached a maximum at approximately 1 unit/mL and then diminished again upon further increasing the heparin concentration, strongly suggesting a template mechanism as an explanation for the observed effect. In contrast to vitronectin, heparin does not stabilize the active conformation of PAI-1.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Functional interaction of plasminogen activator inhibitor type 1 (PAI-1) and heparin. 170 36

Plasminogen activator inhibitor-2 (PAI-2), found in human placenta and pregnancy plasma, was prepared in a highly purified and functionally active form from human placenta. The purification was achieved by a combination of Rivanol and ammonium sulfate precipitation, followed by chromatography on DEAE Affigel Blue, hydroxylapatite and phenylalanine-Sepharose. PAI-2, which is precipitated by low Rivanol concentrations, can be selectively redissolved from the pellet by increasing the Rivanol concentration in the presence of a reducing agent, i.e. dithiothreitol. The purified protein shows a molecular mass of 45 kDa in SDS PAGE, cross-reacts with monoclonal antibodies against PAI-2 (Mab'PAI-2), and inhibits the amidolytic activity of urokinase-type plasminogen activator (u-PA) towards the chromogenic substrate Glu-Gly-Arg-pNA (S-2444). The specific activity of the purified inhibitor was 52,300 units/mg, attaining 71,000 units/mg in peak fractions. In the immunopurification of placental extract on anti-PAI-2 Sepharose, the eluate showed the expected reaction with Mab' PAI-2, and it also cross-reacted with anti-vitronectin serum. In order to complement these results, anti-vitronectin Sepharose was used for immunopurification of placenta extract. In Western Blot experiments the eluates of anti PAI-2 Sepharose and anti-vitronectin Sepharose both showed a heterogeneous pattern of high molecular weight bands recognized by either polyclonal antiserum against vitronectin or Mab'PAI-2. In either case, reduction of the eluates releases mainly a 45-kDa band, which is recognized by Mab'PAI-2, or 80-kDa and 76-kDa bands recognized by anti-serum against vitronectin. These data suggest that the predominant form of PAI-2 in placenta extract is heterogeneous and of high molecular mass, containing complexes in which vitronectin is covalently bound to PAI-2 by disulfide bridges.
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PMID:Isolation of plasminogen activator inhibitor-2 (PAI-2) from human placenta. Evidence for vitronectin/PAI-2 complexes in human placenta extract. 170 70

Tumor necrosis factor (TNF) may be involved in the disturbance of the procoagulant-fibrinolytic balance in septicemia, leading to microvascular thrombosis. To assess the dynamics of the fibrinolytic response to TNF in humans, we performed a crossover saline-controlled study in six healthy men, investigating the effects of a bolus intravenous injection of recombinant human TNF (50 micrograms/m2) on the stimulation and inhibition of plasminogen activation as well as on plasmin activity and inhibition. TNF induced a brief fourfold increase in the overall plasma plasminogen activator (PA) activity peaking after 1 h (p less than 0.0001), which was associated with rises in the antigenic levels of urokinase-type plasminogen activator (p less than 0.0001) and tissue-type plasminogen activator (p less than 0.0001). Plasminogen activator inhibitor type I antigen remained unchanged in the first hour, but showed a rapid eightfold increase thereafter (p less than 0.0001), which coincided with the decrease in PA activity. Generation of plasmin activity in the first hour was signified by an 11-fold rise in D-dimer levels (p less than 0.0001); inhibition of plasmin was reflected by a 36-fold rise in plasmin-alpha 2 antiplasmin complexes (p less than 0.0001), as well as by a transient 16% decrease in alpha 2-antiplasmin activity (p less than 0.01). In conclusion, TNF induced an early activation of the fibrinolytic system becoming maximal in 1 h, with a rapid inhibition thereafter. Earlier observations in the same subjects showed sustained coagulation activation for 6-12 h. The observed disbalance between the procoagulant and fibrinolytic mechanisms after TNF injection confirms the in vivo relevance of the effects of TNF on vascular endothelium in vitro and may explain the tendency towards microvascular thrombosis in septicemia.
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PMID:Fibrinolytic response to tumor necrosis factor in healthy subjects. 171 36


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