EC:3.4.21.73 - FACTA Search

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Query: EC:3.4.21.73 (urokinase-type plasminogen activator)
10,685 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Protease nexin-I (PN-I) is representative of a newly described class of serine protease inhibitors secreted by human fibroblasts, the protease nexins. Protease nexins form covalent complexes with their target proteases, subsequently binding to cells via specific receptors. PN-I preferentially binds thrombin, urokinase, trypsin, and plasmin, and its binding to thrombin is accelerated by heparin. We have previously described the production of a polyclonal antibody against PN-I which is able to block the binding of PN-I X proteinase complexes to cells and will immunoprecipitate metabolically labeled PN-I. Anti-PN-I was used to investigate the biosynthesis and regulation of PN-I in human fibroblasts. Unlabeled PN-I could compete for the binding of metabolically labeled PN-I to anti-PN-I, as shown by the elimination of the 43-kDa band representing PN-I on sodium dodecyl sulfate-polyacrylamide gel electrophoresis autoradiographs. Excision of this 43-kDa band from gels, followed by amino-terminal sequencing, showed a homogeneous protein that is homologous with that described by Scott et al. (Scott, R. W., Bergman, B. L., Bajpai, A., Hersh, R. T., Rodriguez, H., Jones, B. N., Barreda, C., Watts, S., and Baker, J. B. (1985) J. Biol. Chem. 260, 7029-7034). An analysis of the biosynthesis of the PN-I revealed that a lower Mr precursor exists intracellularly. This apparent rough endoplasmic reticulum form appears as a doublet on sodium dodecyl sulfate gels, as does mature PN-I. The PN-I precursor was also sensitive to endoglycosidase H, suggesting that it contains N-linked carbohydrates of the high mannose form. Mature PN-I is not sensitive to endoglycosidase H, but does contain 3 kDa of N-linked carbohydrate. PN-I appears to be constitutively secreted by fibroblasts. PN-I levels in conditioned media reach a steady state within 48 h, although PN-I synthesis maintains a constant rate. This steady state is due to the continuous uptake of PN-I from medium, presumably through a specific receptor.
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PMID:Biosynthesis of protease nexin-I. 377 29

Glial-derived neurite-promoting factor was found to be a slow-binding inhibitor of trypsin, urokinase, and thrombin. The kinetic mechanism of the inhibition differs among the three proteases. With trypsin and urokinase, an initial protease-factor complex formed which isomerized to a tighter complex. For thrombin, however, no initial complex was kinetically observed. The dissociation constants of the equilibrium complexes of the factor with trypsin, urokinase, and thrombin were 17, 280, and 18 pM, respectively, and the apparent second-order rate constants for the interaction of the factor with these enzymes were, respectively, 4.7 X 10(6), 1.2 X 10(5), and 2.1 X 10(6) M-1S-1. Heparin increased the rate at which the factor reacted with thrombin by over 40-fold to 8.9 X 10(7) M-1S-1 and decreased the dissociation constant of the complex by over 80-fold to 0.3 pM. The values obtained for the apparent second-order rate constants when compared with the kinetics of neurite induction by the factor indicate that the neurite-promoting activity of the factor is not due to the inhibition of urokinase but could be due to the inhibition of an enzyme with a specificity similar to that of thrombin or trypsin. Comparison of the values of the apparent second-order rate constants obtained for the factor with those obtained for protease nexin suggests that these two molecules are very similar in their inhibitory properties.
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PMID:Glial-derived neurite-promoting factor is a slow-binding inhibitor of trypsin, thrombin, and urokinase. 381 34

Low-molecular-weight protein factors (Mr 8,000 to 18,000) from serum-free conditioned medium of human fibrosarcoma (8387) cells reversibly enhanced the secretion of proteinase-inhibitory activity by cultured normal human skin fibroblasts. This inhibitory activity could be absorbed by immobilized plasminogen activator (PA) of urokinase type but not by heparin, and it was sensitive to treatment with sodium dodecyl sulfate. The secretion of a heparin-binding Mr 60,000 proteinase inhibitor, resembling protease nexin, was also detected. Early passages of adult skin fibroblasts do not contain or secrete PA. When cell types secreting this enzyme were tested, the fibrosarcoma-derived factors decreased the PA secretion detectable after sodium dodecyl sulfate treatment in all conditioned media of normal and malignant fibroblastic cells examined, including the 8387 cell line itself. However, no effects on the secretion of PA by normal or malignant cells of epithelioid origin or by melanoma cells were seen. A similar preparation from human epidermoid carcinoma (A431)-conditioned medium did not affect the PA activity or secretion of proteinase inhibitors from fibroblastic cells. The ability of sarcoma cells to modulate the production of PA inhibitors is a novel characteristic in the regulation of cellular proteolysis.
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PMID:Regulation of plasminogen activator activity in human fibroblastic cells by fibrosarcoma cell-derived factors. 392 Dec 41

We have used purified protease nexin-I (PN-I) from human fibroblasts to develop a polyclonal antibody that specifically blocks the PN-I-mediated cellular binding of thrombin and urokinase. Anti-PN-I IgG did not inhibit the binding of 125I-epidermal growth factor-binding protein to fibroblasts, which is mediated by protease nexin-II, another cell-secreted, serine protease inhibitor that is distinct from PN-I. This furthers the belief that the protease nexins are distinct from one another. In addition, while anti-PN-I IgG immunoprecipitated PN-I X thrombin complexes, it did not do so with antithrombin-III X thrombin. Metabolically labeled PN-I was also immunoprecipitated by IgG, indicating that the protein can be labeled in vivo. The antibody also recognized primarily one band on Western transfers of conditioned medium from fibroblast cultures. These results suggest that anti-PN-I will be useful in probing the physiological role of PN-I as well as its biosynthesis.
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PMID:Human protease nexin-I. Further characterization using a highly specific polyclonal antibody. 394 Oct 97

The present paper describes chemical and functional properties of protease nexin, a serine protease inhibitor released from cultured human fibroblasts. It is shown that protease nexin is actually synthesized by fibroblasts and represents about 1% of their secreted protein. Analysis of the amino acid composition of purified protease nexin indicates that it is evolutionarily related to antithrombin III and heparin cofactor II. Protease nexin contains approximately 6% carbohydrate, with 2.3% amino sugar, 1.1% neutral sugar, and 3.0% sialic acid. The Mr calculated from equilibrium sedimentation analysis is 43,000. Protease nexin is a broad specificity inhibitor of trypsin-like serine proteases. It reacts rapidly with trypsin (kassoc = 4.2 +/- 0.4 X 10(6) M-1 s-1), thrombin (kassoc = 6.0 +/- 1.3 X 10(5) M-1 s-1), urokinase (kassoc = 1.5 +/- 0.1 X 10(5) M-1 s-1), and plasmin (kassoc = 1.3 +/- 0.1 X 10(5) M-1 s-1), and slowly inhibits Factor Xa and the gamma subunit of nerve growth factor but does not inhibit chymotrypsin-like proteases or leukocyte elastase. In the presence of heparin, protease nexin inhibits thrombin at a nearly diffusion-controlled rate. Two heparin affinity classes of protease nexin can be detected. The present characterization pertains to the fraction of protease nexin having the higher affinity for heparin. The low affinity material, which is the minor fraction, is lost during purification.
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PMID:Protease nexin. Properties and a modified purification procedure. 399 57

This report identifies a component of normal human fibroblasts that forms a covalent linkage with thrombin and urokinase (urinary plasmingoen activator) and mediates most of the specific cellular binding of these proteases. This component, here named protease-nexin (PN), is both associated with the cell surface and released into the culture medium. In several ways PN resembles antithrombin III (AT3), a prominent inhibitor of thrombin in serum: PN links thrombin, probably via an ester bond; PN does not link thrombin blocked at its catalytic site serine; PN has a high-affinity heparin-binding site; and heparin greatly accelerates the rate of linkage between soluble PN and thrombin. Despite these similarities, PN and AT3 are distinct; they differ in size and are not immunologically cross-reactive. Whereas AT3 regulates the proteolytic activity of thrombin in serum, PN may regulates the activity of serine proteases at and near the cell surface.
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PMID:Protease-nexin: a cellular component that links thrombin and plasminogen activator and mediates their binding to cells. 615 79

The protease nexins (PN-I, Mr approximately 38,000; PN-II, Mr approximately 95,000; and PN-III, Mr approximately 31,000) are recently described cell-secreted proteins that selectively link to regulatory serine proteases in the extracellular environment and mediate their cellular binding, internalization, and degradation. In the present studies we compared the protease nexins with respect to protease specificity, heparin sensitivity, and general mode of action. By competitive binding assays using [125I]-thrombin, [125I]-nerve growth factor-gamma (125I-NGF-gamma), and [125I]-epidermal growth factor binding protein (125I-EGF-binding protein), we characterized the nexins in terms of protease specificity and determined that PN-I links to and mediates the cellular binding of thrombin or urokinase, whereas PN-II and PN-III preferentially link to and mediate the cellular binding of the EGF binding protein and NGF-gamma, respectively. In addition, whereas the ability of PN-I to link to thrombin is strongly modulated by heparin, PN-II and PN-III are essentially unaffected by heparin. The linkage of each of the nexins to their respective proteases requires the catalytic site serine of the protease, judged by the inability of diisopropylphospho (DIP) derivatives of the proteases tested to link to their respective nexins. Subsequent to linkage, the nexin:protease complexes are bound to cells, rapidly internalized, and ultimately degraded via a monensin-sensitive apparently lysosomal pathway, although each nexin:protease complex is degraded at its own characteristic rate. Importantly, the protease nexins provide the major pathway through which human fibroblasts interact with each of the serine proteases studied. Taken together, these data suggest that the nexins are a unique class of cell-secreted proteins that enable cells to monitor and selectively regulate specific serine proteases in their environment.
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PMID:Protease nexins: cell-secreted proteins that mediate the binding, internalization, and degradation of regulatory serine proteases. 631

When the plasminogen activator urokinase was radioiodinated and incubated at 40 ng/ml in medium conditioned by human foreskin (HF) cells, within 30 min over 80% of the added plasminogen activator was complexed to cell-released protease nexin (PN). The urokinase complexed to PN had little if any activity. Incubation of purified PN with urokinase confirmed that PN is an inhibitor of this plasminogen activator. However, a widely used plasminogen-dependent fibrinolysis assay for plasminogen activator indicated that abundant endogenous plasminogen activator activity co-existed with PN in HF cell-conditioned medium. The source of this activity was electrophoretically and immunologically indistinguishable from urokinase. Furthermore, gel exclusion chromatography showed that about 90% of the urokinase antigen detected in conditioned medium had a molecular weight similar to that of free active urokinase. These paradoxical findings are resolved by evidence that this "PN-resistant urokinase-like" plasminogen activator is actually urokinase proenzyme that is activated by plasmin or conditions in the fibrinolysis assay for plasminogen activator. It is shown that the activated form of HF cell plasminogen activator is sensitive to inhibition by PN. PN may thus be an important component in the cellular regulation of endogenous plasminogen activator activity.
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PMID:Regulation of extracellular plasminogen activator by human fibroblasts. The role of protease nexin. 633 96

Recently we presented evidence that normal human foreskin fibroblasts (HF cells) limit the activity of secreted urokinase by secreting it as a proenzyme and by secreting protease nexin , an inhibitor of urokinase and certain other serine proteases (Scott, R.W., Eaton, D. L. Duran , N., and Baker, J.B. (1983) J. Biol. Chem. 258, 4397-4403). Using immunoaffinity chromatography we have now purified the HF cell urokinase proenzyme. It is a single 52-kDa polypeptide chain that is inactive toward both plasminogen and low molecular weight substrates. After proteolytic activation, this material (specific activity of 3 X 10(4) Committee on Thrombolytic Agents units/mg) is composed of two disulfide-bridged 33- and 19-kDa chains, and is thus similar to the predominant form of urokinase found in urine. Plasmin at 2 X 10(-10) M causes 50% activation of the proenzyme (1 X 10(-9) M) in 30 min at 37 degrees C. Thrombin and trypsin are one-twentieth as effective as plasmin. Activated HF cell 125I-urokinase forms sodium dodecyl sulfate stable complexes with purified protease nexin or protease nexin present in medium conditioned by HF cells. Purified protease nexin inhibits purified HF cell urokinase action on both plasminogen and low molecular weight substrates. The association rate constant for the reaction between protease nexin and HF cell urokinase is approximately 1.7 X 10(5) M-1 S-1. In contrast, the association rate constants for reactions between protease nexin and the one- and two-chain forms of tissue-type plasminogen activator are approximately 2 X 10(3) and approximately 3 X 10(4) M-1 S-1, respectively. The importance of protease nexin as a regulator of HF cell urokinase is supported by the finding that anti-protease nexin antibody potentiates the fibrinolytic activity of HF cell-conditioned medium incubated with plasminogen.
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PMID:Purification of human fibroblast urokinase proenzyme and analysis of its regulation by proteases and protease nexin. 637 53

The plasminogen activator (PA) produced by freshly purified human monocytes-macrophages and histiocytic, lymphoma-derived U 937 cells was analyzed by zymography after sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE), and found to migrate with an apparent Mr of 55,000, identical to that of urokinase (Uk). By immunoprecipitation with antibodies specific for the two different types of PA, the enzyme was shown to be immunologically related to urokinase, and not to tissue PA. Urokinase was secreted in the form of the inactive Mr 55,000 zymogen prourokinase , and could be converted to the active Mr 55,000 enzyme by limited proteolysis with plasmin. Conditioned media from cultures of U 937 cells and monocytes-macrophages inhibited the fibrinolytic activity of exogenously added urokinase. Using [125I]-labeled urokinase we observed the formation of an enzyme-ligand complex, which was not dissociated by boiling in SDS and migrated with an apparent Mr 40,000 daltons higher than the free enzyme; since complexed urokinase was functionally inactivated as a PA, the ligand is an inhibitor of urokinase. This inhibitor is different from fibroblast-produced protease- nexin , in that it did not interact with thrombin. These results suggest that plasminogen activation by mononuclear phagocytes can be modulated through the secretion of both (pro)enzyme and a specific inhibitor.
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PMID:Concomitant secretion of prourokinase and of a plasminogen activator-specific inhibitor by cultured human monocytes-macrophages. 637 11

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