EC:3.4.21.5 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.5 (thrombin)
33,306 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Incubation of HTC rat hepatoma cells with the synthetic glucocorticoid dexamethasone rapidly inhibits plasminogen activator (PA) activity secondary to the induction of a specific acid-stable inhibitor of plasminogen activation (Cwikel, B. J., Barouski-Miller, P.A., Coleman, P.L., and Gelehrter, T.D. (1984) J. Biol. Chem. 259, 6847-6851). We have further characterized this inhibitor with respect to its interaction with both urokinase and tissue plasminogen activator, and its protease specificity. The HTC PA inhibitor rapidly inhibits urokinase and tissue plasminogen activator with an apparent second-order rate constant of 3-5 x 10(7) M-1 X s-1. The inhibitor forms stable covalent complexes with both urokinase and tissue plasminogen activator, with which plasmin, trypsin, and factor Xa apparently do not compete. Complex formation is saturable and requires the active site of the PA. The mass of the inhibitor-PA complex is 50,000 daltons greater than that of PA alone, consistent with an Mr for the PA inhibitor of 50,000 as demonstrated directly by reverse fibrin autography. The HTC PA inhibitor does not inhibit thrombin and differs in its kinetic and biochemical properties from protease nexin.
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PMID:Characterization of the dexamethasone-induced inhibitor of plasminogen activator in HTC hepatoma cells. 293 42

Protease nexin-1 (PN-1) is a proteinase inhibitor that is secreted by human fibroblasts in culture. PN-1 inhibits certain regulatory serine proteinases by forming a covalent complex with the catalytic-site serine residue; the complex then binds to the cell surface and is internalized and degraded. The fibroblast surface was recently shown to accelerate the rate of complex-formation between PN-1 and thrombin. The present paper demonstrates that the accelerative activity is primarily due to cell-surface heparan sulphate, with a much smaller contribution from chondroitin sulphate. This conclusion is supported by the effects of purified glycosaminoglycans on the second-order rate constant for the inhibition of thrombin by PN-1. Also, treatment of 35SO4(2-)-labelled cells with heparitin sulphate lyase or chondroitin sulphate ABC lyase demonstrated two discrete pools of 35S-labelled glycosaminoglycans; subsequent treatment of plasma membranes with these glycosidases showed that heparitin sulphate lyase treatment abolished about 80% of the accelerative activity and chondroitin sulphate ABC lyase removed the remaining 20%. These results show that two components are responsible for the acceleration of PN-1-thrombin complex-formation by human fibroblasts. Although dermatan sulphate is also present on fibroblasts, it did not accelerate the inhibition of thrombin by PN-1.
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PMID:Glycosaminoglycans on fibroblasts accelerate thrombin inhibition by protease nexin-1. 295 75

The serine proteinase alpha-thrombin potently stimulates reinitiation of DNA synthesis in quiescent Chinese hamster fibroblasts (CCL39 line). 125I-labeled alpha-thrombin binds rapidly and specifically to CCL39 cells with high affinity (Kd approximately 4 nM). Binding at 37 degrees C was found to remain stable for 6 h or more during which time no receptor down-regulation, ligand internalization and/or degradation could be detected. The structure of alpha-thrombin receptors on CCL39 cells was identified by covalently coupling 125I-alpha-thrombin to intact cells using a homobifunctional cross-linking agent, ethylene glycol bis(succinimidyl succinate). By resolution in sodium dodecyl sulfate polyacrylamide gel electrophoresis we observed the specific labeling of a major alpha-thrombin-binding site of Mr approximately 150 000 revealed as a 125I-alpha-thrombin cross-linked complex of Mr approximately 180 000. Independent of chemical cross-linking, 125I-alpha-thrombin also formed a covalent complex with a minor, 35 000 Mr, membrane component identified as protease nexin. Two derivatives of alpha-thrombin modified at the active site are 1000-fold less than alpha-thrombin for mitogenicity. These two non-mitogenic derivatives bound to cells with similar affinity and maximal binding capacity as native alpha-thrombin, and affinity-labeled the receptor subunit of Mr 150 000. When present in large excess, during incubation of cells with alpha-thrombin, these binding antagonists were ineffective in blocking alpha-thrombin-induced DNA synthesis. These data suggest that the specific 150 000 Mr binding sites that display high affinity for alpha-thrombin do not mediate induction of the cellular mitogenic response.
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PMID:Affinity labeling of high-affinity alpha-thrombin binding sites on the surface of hamster fibroblasts. 299 85

Fibroblasts as well as several other cell types, secrete a number of protease inhibitors into their culture media. Among these inhibitors are the protease nexins, a class of proteins which covalently bind serine proteases, thereby inactivating their specific targets. Protease nexin-I, first discovered in human foreskin fibroblasts, binds thrombin, plasmin, and urokinase with high affinity, forming covalently linked complexes. Human fibroblasts bind complexes of protease nexin-I and its target protease via a cell-surface, high-affinity receptor. We have analyzed a number of characteristics of this receptor, and found them to be typical of class II receptors in general. At 4 degrees C binding of PN-I:protease complexes was competed by heparin. In addition, binding was independent of the particular protease bound to the PN-I; purified complexes of PN-I with thrombin or urokinase competed equipotently for [125]I-thrombin:PN-I binding. As the pH of the binding buffer was lowered, binding to cells increased. A twofold increase in binding was attained by lowering the pH from 7.5 to 4.5. This phenomenon was not due to irreversible, pH-induced changes to either the cell surface or the labeled complexes. At 37 degrees C, the removal of labeled complexes from culture medium was rapid; approximately 80% was removed by 4 hours under given conditions. The internalization of complexes was also very rapid, with an estimated ke (endocytic rate constant) of 1.0 min-1. At neutral pH, fibroblasts bind complexes in a saturable manner. Scatchard analysis yields a receptor number of 250,000 per cell and a Kd of 1 nM.
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PMID:Characterization of the receptor for protease nexin-I:protease complexes on human fibroblasts. 303 24

In the present studies we have compared the structural and biochemical properties of human protease nexin-I (PN-I) and a protease inhibitor present in the serum-free culture fluid of normal rat brain astrocytes. The inhibitor binds to and forms covalent complexes with human urokinase and thrombin. The inhibitor has an approximate Mr = 43,000 based on the size of the complexes (deduced from SDS-PAGE) and mediates the cellular binding and uptake of the proteases to which it links. Binding is heparin sensitive and occurs on a cell surface receptor that also binds complexes formed between proteases and a well-characterized cell-secreted protease inhibitor, human PN-I. In addition, the inhibitor co-migrates with PN-I on SDS-PAGE and cross-reacts with anti-PN-I antibody on immunoblots. A similar molecule, designated NPF, is produced by C6 glioma cells in culture and has neurite promoting activity on a neuroblastoma cell line.
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PMID:Identification of a protease inhibitor produced by astrocytes that is structurally and functionally homologous to human protease nexin-I. 304 Jan 75

Protease nexin-I (PN-I, Mr approximately 43,000) is representative of a newly described class of cell-secreted protease inhibitors. PN-I has been purified to apparent homogeneity, partially sequenced, and monospecific antibodies have been raised against it. PN-I is a potent inhibitor of urokinase, thrombin, plasmin, and trypsin. In addition, cells have specific receptors that mediate the uptake of covalently linked complexes formed between PN-I and its protease substrates. In the present studies, we have investigated the relationship between human PN-I and a protease inhibitor derived from C6 glioma cells in culture that has neurite-promoting activity. On the basis of co-purification on heparin-Sepharose, identical molecular weight, antibody cross-reactivity, and receptor cross-reactivity, we conclude that PN-I and the glioma-cell-derived inhibitor are equivalent molecules.
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PMID:The glioma cell-derived neurite promoting activity protein is functionally and immunologically related to human protease nexin-I. 304 Jul 80

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

A fraction of the 125I-thrombin that binds to human platelets is taken into a sodium dodecyl sulfate-resistant 77 kDa complex with a platelet factor (Bennett, W. F., and Glenn, K. C. (1980) Cell 22, 621-627). Here we show that this platelet factor is in several respects similar to protease nexin I (PNI), a fibroblast thrombin inhibitor. The complexes are of the appropriate size, bind to Sepharose that has been derivatized with anti-PNI antibody, do not form when the thrombin active site has been blocked with diisopropylphosphofluoridate, and do not appear on platelets when heparin is present. However, the platelet factor does not bind urokinase, indicating that this "platelet PN" may be distinct from PNI. Following brief incubation with 125I-thrombin, platelet PN X 125I X thrombin complexes are found both associated with the platelets and free in the binding medium. 125I-Thrombin has a higher affinity for platelet PN than for platelet receptors. In 30-s binding incubations carried out with thrombin at concentrations below 0.3 nM, formation of the 77-kDa complex accounts for most of the platelet specific binding of 125I-thrombin. Subtracting this large contribution to 125I-thrombin-specific binding reveals that the reversible binding of 125I-thrombin to platelet receptors exhibits sigmoidal thrombin dose-dependence. Thrombin stimulation of platelet [14C]serotonin release exhibits similar thrombin dose dependence. These results indicate that platelets may possess a mechanism for suppressing their interaction with active thrombin at thrombin doses below 0.3 nM. It is possible that platelet PN carries out this function by capturing thrombin before thrombin binds to its signal-transmitting receptors.
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PMID:Thrombin interaction with platelets. Influence of a platelet protease nexin. 310 83

Serum-free culture medium collected from primary monolayer cultures of human articular chondrocytes was found to inhibit human urokinase [EC 3.4.21.31] activity. Although chondrocyte culture medium contained a small amount of endothelial-type plasminogen activator inhibitor which could be demonstrated by reverse fibrin autography, most of the urokinase inhibitory activity of chondrocyte culture medium was shown to be due to a different molecule from endothelial-type inhibitor, since it did not react with a specific antibody to this type of inhibitor. The dominant urokinase inhibitor in chondrocyte culture medium was partially purified by concanavalin A-Sepharose affinity chromatography. The partially purified inhibitor inhibited high-Mr urokinase more effectively than low-Mr urokinase, but no obvious inhibition was detected against tissue-type plasminogen activator, plasmin, trypsin, and thrombin. The inhibitor had an apparent Mr of 43,000 on sodium dodecyl sulfate polyacrylamide gel electrophoresis, and it was unstable to sodium dodecyl sulfate, acid, and heat treatments. Inhibition of urokinase by the inhibitor was accompanied with the formation of a sodium dodecyl sulfate-stable high-Mr complex between them. Inhibition and complex formation required the active site of urokinase. The partially purified inhibitor was thought to be immunologically different from the known classes of plasminogen activator inhibitors, including endothelial-type inhibitor, macrophage/monocyte inhibitor, and protease nexin, since it did not react with specific antibodies to these inhibitors.
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PMID:Detection and partial characterization of a specific plasminogen activator inhibitor in human chondrocyte cultures. 314 40

A plasminogen activator inhibitor was purified to apparent homogeneity from conditioned media of U138 cells. The inhibitor is a glycoprotein with a pI of 5.4 and an apparent molecular weight of 45,000. The inhibitor forms sodium dodecyl sulfate-stable complexes with plasminogen activators and trypsin but not with plasmin, thrombin, or pancreatic kallikrein. Some biochemical and immunochemical characteristics of the U138 inhibitor distinguish it from other known plasminogen activator inhibitors. The expression of this inhibitor by U138 cells could be modulated by incubation in phorbol myristate acetate, interleukin-1, tumor necrosis factor, and gamma interferon, but not in beta interferon. Thus, the expression of the plasminogen activator inhibitor can be influenced by biological response modifiers known to be active in the brain and in the neural response to inflammatory stimuli. Therefore, this inhibitor, along with protease nexin, may be involved in brain development and regulation.
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PMID:Purification and partial characterization of a plasminogen activator inhibitor from the human glioblastoma, U138. 314 98

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