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:3.4.21.7 (plasmin)
9,023 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Endothelial cells play an important role in the regulation of fibrinolysis by the production of several key regulatory proteins. The cytokines tumor necrosis factor (TNF), lymphotoxin, and interleukin-1 (IL-1), but not interleukin-6, increase the production of plasminogen activator inhibitor-1 (PAI-1) by endothelial cells, whereas they have no stimulatory effect on the production of tissue-type plasminogen activator (t-PA). Primary cultures of human endothelial cells release very little urokinase-type plasminogen activator (u-PA). We report here that TNF and lymphotoxin induce, in a concentration-dependent way, the production of both cellular and secreted u-PA antigen in primary and subcultured human endothelial cells. The TNF-induced increase was accompanied by a more than 10-fold increase in u-PA mRNA. Upon stimulation of early passage umbilical vein endothelial cells by TNF, u-PA was predominantly secreted at the basolateral side, whereas PAI activity and t-PA were found in more equal amounts at the apical and basolateral sides of the cell monolayers. TNF-stimulated u-PA secretion by subcultured human aorta endothelial cells showed only a marginal polarity. The u-PA antigen was present in a plasmin-activatable form (single chain u-PA) and in a nonactivatable form (probably u-PA: PAI-1 complex). During the induction of u-PA by TNF, the ratio between plasmin-activatable u-PA and total u-PA decreased markedly. This may indicate that TNF also increases the degree of u-PA activation. The parallel induction of the synthesis and secretion of both u-PA and PAI-1 by endothelial cells adds a new aspect to the alterations of the fibrinolytic system caused by inflammatory mediators. This aspect may be significant for the regulation of cell-associated and interstitial plasminogen activator activity.
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PMID:Tumor necrosis factor induces the production of urokinase-type plasminogen activator by human endothelial cells. 214 60

Extracellular matrix (ECM) produced by bovine corneal endothelial cells was used to investigate the role of the plasminogen activator/plasmin system in the degradation of ECM by human squamous cell carcinoma (SqCCs) and human foreskin epidermal cells (HFEC). SqCCs caused an 8- to 34-fold greater solubilization of 3H-glucosamine-labeled ECM than HFEC. This action in SqCCs was dependent upon the presence of acid-treated serum, indicating that tumor-associated proteinases were sensitive to the inhibitory action of acid-labile proteinase inhibitors present in the serum. SqCC mediated digestion of radiolabeled ECM was decreased by 14- to 55-fold in plasminogen depleted serum, and the addition of 100 micrograms/mL of purified human plasminogen resulted in up to a 30-fold increase in the degradation of the ECM. Inhibitors of this proteinase system and murine monoclonal antibodies (MAb) specific for human urokinase plasminogen activator (uPA) decreased the SqCC mediated digestion of radiolabeled ECM in a concentration dependent manner. SqCCs exhibited 10- to 30-fold higher extracellular uPA levels than HFEC, as assayed by substrate hydrolysis, zymography, micro-ELISA, western analysis, and northern analysis. These findings reflect the differential ability of these cell types to degrade the ECM. In addition, immuno-cross-reactive plasminogen activator inhibitor type I (PAI type 1) and type II (PAI type 2) were identified in cell-free conditioned medium produced by both tumor cells and normal epidermal cells, using a micro-ELISA assay. Indirect immunofluorescence flow cytometry, employing MAbs directed against uPA, detected the presence and localization of uPA on the SqCC cell surface. These findings were specific for uPA, since cell surface associated tissue plasminogen activator was not detected in these cell types under analogous conditions. In addition, partially purified SqCC plasma membrane preparations exhibited 2- to 10-fold higher uPA-like activity than HFEC, as determined by zymography. The findings support the concept that the plasminogen activator system is important in the breakdown of ECM by SqCCs and suggest that regulatory mechanisms involved in this proteolytic system may be important targets for chemotherapeutic intervention to limit tumor cell invasion and metastasis.
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PMID:Plasminogen activator mediated degradation of subendothelial extracellular matrix by human squamous carcinoma cell lines. 214 33

Plasminogen activators initiate the fibrinolytic system by conversion of the proenzyme plasminogen to the active fibrin degrading enzyme plasmin. Plasminogen activator inhibitors inhibit the effects of both plasminogen activators. Uncomplicated pregnancies are accompanied by hypercoagulability and an increased risk of thromboembolic disease. Thrombosis is rare in the first trimester and most events are noted in the last trimester. Therefore, we studied the fibrinolytic system at the end of pregnancy and in the puerperium. Plasma concentrations of urokinase plasminogen activator (u-PA/competitive radioimmunoassay), tissue type plasminogen activator (t-PA/sandwich ELISA) and plasminogen activator inhibitor (PAI/functional assay) were determined in 44 women (age: 24.3 +/- 4.3 years) with normal pregnancy near term. Plasma samples were collected before the onset of labour and 1, 2, 3, 4 and 5 days after delivery. Compared with an age-matched non pregnant control group (8.3 +/- 3.94 U/ml) significantly increased PAI activity (12.13 +/- 4.79 U/ml - p less than 0.005) was measured before delivery with a subsequent significant decrease (8.13 +/- 1.97 U/ml) to normal values on day 1 after delivery; plasma u-PA and t-PA antigen levels remained unchanged. Placental weight and birth weight had no influence on plasma levels of both plasminogen activators.
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PMID:Influence of delivery on plasminogen activator inhibitor activity. 268 64

We have previously demonstrated that plasminogen activator inhibitor (PAI-1) is associated with the extracellular matrix of cultured bovine smooth muscle cells (Knudsen, B.S., Harpel, P.C., Nachman, R.L. (1987) J. Clin. Invest. 80, 1082-1089). In this report we describe the physiologic role of PAI-1 during the interaction of the tissue plasminogen activator (t-PA) secreting Bowes human melanoma cell line with endothelial extracellular matrices. In addition we have characterized the t-PA.PAI complexes formed during this interaction in the presence and absence of plasminogen. In the absence of plasminogen, a 104-kDa complex between Bowes t-PA and PAI-1 appears in the supernatant. In the presence of plasminogen, PAI initially prevents plasmin formation on the matrix and protects the matrix from degradation by plasmin. The 104-kDa t-PA.PAI complex is degraded into a 68 and a 47-kDa complex by small amounts of plasmin generated from secreted Bowes t-PA and plasminogen. Analysis of these complexes revealed that t-PA is rapidly cleaved by plasmin within the complex whereas complexed PAI-1 is not further degraded. Matrix-associated PAI-1 may play an important role in the protection of extracellular matrices from remodeling and degradation by cellular t-PA and plasminogen.
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PMID:Matrix plasminogen activator inhibitor. Modulation of the extracellular proteolytic environment. 296 24

A new functional assay of PAI-activity in human plasma is described. Hitherto known assays for fast acting PAI have some disadvantages: predilution and/or acidification steps of the sample to afford the required inactivation of alpha-2-antiplasmin (A2-PI). This approach in contrast implicates test performance in presence of chloramine T (CT), an oxidant that destroys plasma antiplasmin activity without impairing significantly the activity of urokinase (u-PA) or plasmin. The following reaction conditions were found optimal: 50 microliter of undiluted plasma, anticoagulated with citrate or EDTA, were first incubated with 1 IU u-PA in a Tris-buffer, pH 8.4 and then with Glu-plasminogen (0.85 mumol/l final), CT (2.5 mmol/l final), tranexamic acid (0.9 mmol/l final) for 5 min. at 37 degrees C. After addition of 0.3 mmol/l of the chromogenic plasmin substrate H-D-Nva-CHA-Lys-pNA (pNA = para nitroanilide) and of NaCl (250 mmol/l final) a linear kinetic with delta A405/t in the range of 0.2/min for normal plasma was recorded. In an endpoint version of the test the chromogenic substrate can be added together with plasminogen resulting an A/t2-kinetic. Dilution studies showed a linear calibration curve from 0 to 14 arbitrary u-PA inhibiting units (AU)/ml plasma. By means of PAI-standard plasmas PAI-capacity values of 20 healthy volunteers (10 males/10 females) (x = 26 years, sigma = 4.2) were determined. They ranged from 0.4 - 6.9 (x = 1.3, sigma = 0.9) AU/ml plasma. Plasma samples containing more than 14 AU/ml were prediluted with PAI-deficient plasma. Intra- and inter-assay coefficients of variation (CV) were determined to be 1.3 +/- 0.6 and 4.3 +/- 0.5%, respectively. The values of this assay correlate well with those obtained by acidification of the samples. However, the possibility of measuring plasma PAI (and PA) activities by means of a simple and direct approach can be considered as an important progress with regard to routine hospital practice. The presented oxidative inactivation of A2-PI mimics the leukocyte attack phase, suggesting that activated leukocytes create a microenvironment of uncontrolled plasmin activity.
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PMID:Determination of plasminogen activator inhibitor (PAI) capacity of human plasma in presence of oxidants: a novel principle. 313 81

The aim of the present study was to find out whether plasminogen activator inhibitor type-1 (PAI-1) controls the formation of plasmin in patients with ischaemic heart disease. We examined PAI activity, PAI-1 antigen, tissue type plasminogen activator (t-PA) activity, t-PA antigen, plasmin-alpha2-antiplasmin complex (PAP-complex) and fibrin degradation products D-dimer in 62 patients before (unstimulated) and after infusion of 1-desamino-8-D-arginine vasopressin (DDAVP; stimulated). DDAVP was used in a standardized dose to trigger the release of t-PA from the vascular endothelium. We observed that under basal conditions (unstimulated) median plasma t-PA activity for the whole group of patients was 86.5 mIU/ml (0-900), and after stimulation 2550 mIU/ml (0-6800), P < 0.0001; median plasma concentration of t-PA antigen was 14.7 ng/ml (7.0-115.5) under basal conditions, and after stimulation 34.1 ng/ml (15.8-58.6), P < 0.0001; median plasma PAI activity was 16.9 IU/ml (1.5-144.8) under basal conditions, and after stimulation 3.1 IU/ml (0-118.5), P < 0.0001; median plasma concentration of PAI-1 antigen was 21.5 ng/ml (8.1-132.2) under basal conditions, and after stimulation 14.9 ng/ml (4.8-149.0), P < 0.0001; the median plasma concentration of PAP-complex was 469.5 ng/ml (185.0-1802.0) under basal conditions, and after stimulation 695.5 (243.0-2292.0), P < 0.0001; median plasma concentration of D-dimer was 298.0 ng/ml (103.0-948.0) under basal conditions, and after stimulation 296.5 ng/ml (97.0-917.0), P < 0.0008.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Plasminogen activator inhibitor type-1 determines plasmin formation in patients with ischaemic heart disease. 748 12

Endothelial cell-derived proteases can be classified according to their physiological role. The proteases involved in extracellular matrix degradation are important in endothelial cell migration and thereby in angiogenesis. They include the urokinase-type plasminogen activator (uPA) and the metalloproteases, collagenases, gelatinases and stromelysin. uPA secreted from endothelial cells remains associated with the cell membrane, on specific receptors localized in the vicinity of the receptors for plasminogen. This favours the local activation of plasminogen into plasmin. Plasmin, generated on the cell surface, is fully active as it is not inhibited by alpha 2-antiplasmin. Plasmin acts directly by degrading some components of the extracellular matrix and indirectly by activating the prometalloproteases. Secretion of PAI by migrating cells is generally stimulated by the same factors that induce uPA secretion, limiting the degradation of the matrix to the pericellular path. The degradation of the fibrin clot involves the tissue-type plasminogen activator tPA, which like the uPA activates plasminogen to plasmin. This system is also regulated by two different mechanisms. On the one hand, fibrin itself favours its own degradation by formation of a ternary complex, fibrin-plasminogen-tPA, in which the affinity of tPA for plasminogen is markedly increased, as compared to the affinity of unbound tPA. In addition, plasmin generated on the clot is protected from inhibition by alpha 2-antiplasmin. On the other hand, as for uPA, tPA is inhibited by PAI-1. The importance of the regulation of this system is illustrated by the thrombotic risk observed when there is either a decrease in tPA or an increase in PAI-1, and inversely by haemorrhages in the case of increase in tPA.
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PMID:Endothelial cell proteases: physiological role and regulation. 751 36

Limited proteolysis in vivo of insulin-like growth factor-binding protein-3 (IGFBP-3) by as yet unidentified serine proteases plays a key role in controlling the bioavailability of IGFBP-3-associated insulin-like growth factors (IGFs). Both the IGF system and the system of plasminogen activators (PAs) and their inhibitors (PAIs) are involved in bone remodeling, and plasmin has been shown to provoke dissociation of IGFBP-IGF complexes in cultured MG-63 human osteoblasts. The aim of this work was to investigate interactions between IGF-I and the PA/PAI system and their influence on IGFBP-3 production and proteolysis in this cell model. At confluency, MG-63 cells maintained for 3 days in serum-free medium constitutively secreted IGFBP-2 and small amounts of IGFBP-3 and IGFBP-4. As shown by Western ligand and immunoblot analyses of the culture medium and Northern blot analysis of IGFBP-3 messenger RNA, production of these IGFBPs, and of IGFBP-3 in particular, was dose dependently stimulated by the addition of 12.5-100 ng/ml recombinant human (rh) IGF-I. Increasing concentrations of plasminogen (0.05-3.5 micrograms/ml) added during the final 12 h of culture reduced the amounts of IGFBP detectable by Western ligand blotting, especially IGFBP-3. This reduction reflected proteolysis, as shown by immunoblotting, which revealed 30-, 20-, and 16-kilodalton fragments of IGFBP-3. In the presence of 25 ng/ml IGF-I, which stimulated IGFBP-3 production, proteolysis was reduced by approximately half. Incubation of glycosylated [125I]rh-IGFBP-3 as substrate in cell-free conditioned medium gave the same results. Addition of 50 ng/ml rhIGF-I to conditioned medium (to promote IGFBP-3-rhIGF-I complex formation) failed to diminish plasmin-induced proteolysis of IGFBP-3. Urokinase PA activity in the conditioned medium decreased significantly when the cells were cultured with rhIGF-I, indicating a direct action of IGF-I on urokinase PA and/or PAI production. Our results support the notion of a regulation loop whereby IGF-I controls its own bioavailability via its action on both IGFBP-3 production and the PA/PAI system, which regulates IGFBP-3 proteolysis. The proteolytic cleavages of IGFBP-3 caused by plasmin were the same as those caused in vivo by serine protease acting on this IGFBP.
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PMID:Interactions between insulin-like growth factor-I (IGF-I) and the system of plasminogen activators and their inhibitors in the control of IGF-binding protein-3 production and proteolysis in human osteosarcoma cells. 752 30

Increased expression of plasminogen activator inhibitor-1 (PAI-1) has been demonstrated in the human atherosclerotic vessel wall and may contribute to the impaired plasma fibrinolytic capacity in patients at high risk of atherothrombotic events. In addition, the mural PA/plasmin system may have important pathobiologic functions during atherogenesis. We quantitatively analyzed PAs of the tissue type (TPA) and urokinase type (UPA), PAIs, and plasminogen in protein extracts from different layers of human aorta in relation to the presence and severity of atherosclerotic lesions. In comparison with normal control vessels, intimal and neointimal TPA concentrations were reduced in atherosclerotic aortas except in the necrotic core areas of advanced plaques, where TPA was mainly complexed to PAI-1 in extracellular matrix deposits. In the media, TPA antigen was higher in lesional segments and closely associated with smooth muscle cells. UPA antigen was increased in the intima of atherosclerotic lesions and colocalized with tissue-infiltrating macrophages and neointimal smooth muscle cells. By spectrophotometric assay, neither TPA nor UPA activity could be detected in intimal or medial extracts. PAI-1 concentrations increased significantly in the intima of atherosclerotic segments compared with adjacent uninvolved areas or control aortas. The immunohistochemical distribution of PAI-1 was similar to that observed for TPA. A large excess of PAI-1 over PA concentrations, particularly in the intimal layer, characterizes atherosclerotic lesions of the human aorta and suggests that PA action is locally confined and counterbalanced by enhanced PAI expression and accumulation.
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PMID:Quantification of plasminogen activators and their inhibitors in the aortic vessel wall in relation to the presence and severity of atherosclerotic disease. 760 Jan 21

Although studies with interleukin-1 receptor antagonist (IL-1ra) in animal models have shown that IL-1 contributes to mortality in sepsis, the mechanisms whereby IL-1 mediates lethal effects are not well established. A possible mechanism is that IL-1 enhances the activation and release of other inflammatory mediator systems such as coagulation, fibrinolysis, neutrophils, and secretory-type phospholipase A2 (sPLA2). We investigated this possibility by assessing the effect of intravenously injected recombinant human IL-1 alpha (rhIL-1 alpha) on these plasma parameters in baboons. In addition, we examined the course of these inflammatory parameters in baboons after a challenge with a lethal dose of Escherichia coli and while receiving a 24-hour constant infusion of IL-1ra or placebo. Intravenous administration of IL-1 alpha (10 micrograms/kg) induced the formation of thrombin, as evidenced by the appearance of thrombin-antithrombin III (TAT) complexes into the circulation (peak levels, 188 +/- 92 ng/mL at 2 hours), as well as the activation of fibrinolysis, assessed by circulating plasmin-alpha 2-antiplasmin complexes (PAP complexes; peak levels, 0.4% +/- 0.03% of fully activated plasma at 1 hour), the release of tissue-type plasminogen activator (t-PA; peak levels, 6 +/- 2 ng/mL at 2 hours), and its inhibitor, plasminogen activator inhibitor (PAI; peak levels, 724 +/- 246 ng/mL at 4 hours). Il-1 alpha administration also induced the release of sPLA2 (maximal levels, 336 +/- 185 ng/mL at 8 hours), but not degranulation of neutrophils. In the septic baboons, a significant reduction of the formation of thrombin (peak TAT levels decreased from 582 +/- 78 ng/mL to 219 +/- 106 ng/mL; P < .005), the release of t-PA (peak levels decreased from 37 +/- 11 ng/mL to 17 +/- 2 ng/mL; P < .001), and its inhibitor, PAI (peak levels decreased from 2,639 +/- 974 ng/mL to 1,110 +/- 153 ng/mL; P <.001), was observed in the group receiving IL-1ra compared to that receiving placebo. The release of neutrophilic elastase was also significantly attenuated in IL-1a-treated animals (peak levels, 1,024 +/- 393 and 655 +/- 104 ng/mL in control and treatment groups, respectively; P < .05). The difference between sPLA2 levels in both groups, although higher in the controls (maximal levels, 3,140 +/- 1,435 ng/mL in control v 2,217 +/- 1,375 ng/mL in IL-1ra-treated group), was not significant. Thus, IL-1 contributes to activation of various other mediator systems in severe sepsis in nonhuman primates. We propose that these effects may explain the lethal actions of IL-1 in this sepsis model and suggest a similar role for IL-1 in severe human sepsis.
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PMID:Contribution of interleukin-1 to activation of coagulation and fibrinolysis, neutrophil degranulation, and the release of secretory-type phospholipase A2 in sepsis: studies in nonhuman primates after interleukin-1 alpha administration and during lethal bacteremia. 762 Jan 56


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