EC:3.4.21.4 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.4 (trypsin)
42,187 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The plasminogen activator inhibitor 1 (PAI-1) synthesized and released by cultured bovine aortic endothelial cells is present in conditioned medium in a latent form that can be activated by guanidine hydrochloride [Hekman, C. M., & Loskutoff, D. J. (1985) J. Biol. Chem. 260, 11581-11587]. The purified, guanidine-activated PAI-1 was shown to inhibit both plasmin and trypsin in a dose- and time-dependent manner. Second-order rate constants for these interactions were calculated to be 6.6 X 10(5) and 7.0 X 10(6) M-1 s-1 for plasmin and trypsin, respectively. Experiments were conducted to compare the inherently active and the guanidine-activated forms of PAI-1. The two active forms had similar kinetic parameters for interaction with urokinase (Kd, 0.3 pM; kassoc, 1.5 X 10(8) M-1 s-1) and were both inactivated upon treatment with acid or base and by incubation at 37 degrees C. The latent form was relatively stable when incubated under similar conditions. The decrease in PAI-1 activity upon incubation at 37 degrees C was partially restored by a second treatment with guanidine hydrochloride. However, the degree of recovery decreased as a function of incubation time at 37 degrees C. These data suggest that active and guanidine-activated PAI-1 represent a single form of PAI-1. Incubation of this form at 37 degrees C yields two distinct populations of inactive PAI-1, one capable of reactivation and another that appears to be irreversibly inactivated.
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PMID:Bovine plasminogen activator inhibitor 1: specificity determinations and comparison of the active, latent, and guanidine-activated forms. 296 49

A plasminogen activator inhibitor was purified from human cornified cell extract by DEAE-Sepharose, Sephacryl S-200, and high-performance liquid chromatographies on hydroxyapatite HPHT and anion-exchanger Mono Q at pH 7.2 and 8.0. The purified inhibitor showed Mr 43,000 and pI 5.2 50% inhibition of fibrinolytic activity (1.5 IU) of urokinase and tissue-type plasminogen activator was attained by 0.60 ng and 11.0 ng purified inhibitor, respectively. Synthetic substrate assay demonstrated slow tight-binding inhibition to both urokinase and tissue-type plasminogen activator. The inhibitor did not inactivate plasmin, thrombin, glandular kallikrein or trypsin.
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PMID:Purification of epidermal plasminogen activator inhibitor. 309 78

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

Protease inhibitors are synthesized in biological systems and play a critical role in controlling a number of diverse physiological functions. They participate in blood clotting and lysis of clots, in growth processes by modulation of proteolytic digestion of proteins and thus availability of amino acids, and in the induction of selective DNA amplification. When incorporated into the diet, protease inhibitors appear to suppress many types of cancer. In vitro, they suppress neoplastic transformation caused by chemical carcinogens, ionizing radiation, and oncogenes. These observations offer the hope that judiciously applied protease inhibitors in small concentrations may prevent a wide range of human cancers. This hope is further supported by epidemiological studies which show that populations consuming relatively large amounts of protease inhibitors have a lower occurrence of cancer. The tasks remaining are to determine the kind and the level of protease inhibitors that are most effective in preventing cancer without also having toxic side effects and to incorporate them into our diet. Perhaps the most encouraging investigations are those using small nontoxic protease inhibitors available in pure form (epsilon-aminocaproic acid, a trypsin plasminogen activator inhibitor, and nicotinamide, a chymotrypsin inhibitor and known vitamin). Both agents have been shown to be preventive agents of cancer in animals and in vitro models. Further studies with natural protease inhibitors may yield even more effective agents which when incorporated into our diet will prevent the development of many types of cancer.
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PMID:Anticarcinogenic action of protease inhibitors. 331 95

It was shown that the plasminogen activator inhibitor, ZGlyGlyArgCH2Cl, inactivates the kininogenase and plasminogen activator activities in the whole human granulocyte lysate and human granulocyte proteinase fractions isolated by isoelectrofocusing from the granulocyte lysate (pH 3-10). The kinetics of irreversible inhibition of the ZGlyGlyArgpNA-amidase activity in granulocyte proteinase fractions (pI 10.75, 8.9 and 8.3) by ZGlyGlyArgCH2Cl was measured. These data confirm the earlier obtained results on the trypsin-like nature of the human granulocyte plasminogen activator and its identity to this cell kininogenase.
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PMID:[Identity of kininogenase and plasminogen activators in human granulocytes]. 642 31

Active PAI-1 (plasminogen activator inhibitor 1) is bound to vitronectin in plasma and in the extracellular matrix. In this study we aimed at identifying the PAI-1 binding site in vitronectin, which at present is a matter of dispute. Vitronectin was cleaved with trypsin and the fragments were tested for inhibitory effect on the PAI-1/vitronectin interaction using vitronectin-coated microtiter plates. Intact vitronectin and the tryptic digest of vitronectin both caused a 50% reduction in PAI-1 binding at a concentration of about 2 nmol/I. Gel-filtration on Sephadex G-50 superfine of the tryptic peptides resulted in one main peak of inhibitory activity. The elution volume, Kav, was 0.55 indicating (a) medium-size peptide(s). The peptide was further purified by reverse-phase HPLC. Structural analysis revealed that it constituted the 45 NH2-terminal amino-acid residues in vitronectin. The NH2-terminal vitronectin peptide caused a 50% decrease in PAI-1 binding to the vitronectin-coated microtiter plates at a concentration of about 13 nmol/l. Thus, the peptide is a little less effective in this respect than intact vitronectin. Reduced and S-carboxymethylated peptide had no effect on the interaction. The NH2-terminal vitronectin fragment increased the stability of active PAI-1 by about 60%, which is a little less than with intact vitronectin. The peptide also prevented PAI-1 from oxidation with chloramine T. The half-life was prolonged about 4-fold as compared to about 30-fold with intact vitronectin.
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PMID:Identification of a PAI-1 binding site in vitronectin. 752 53

Serine proteinase inhibitors or serpins are a super-family of homologous proteins that are for the most part involved in the regulation of proteolytic processes in a variety of biological systems. Utilizing a polymerase chain reaction-based strategy we have cloned a novel member of the ovalbumin family of serpins from a human bone marrow cDNA library. The new gene encodes a 397-amino acid protein, designated bomapin, with a calculated molecular mass of 45 kDa and 48% amino acid identity with plasminogen activator inhibitor-2, human leukocyte elastase inhibitor, and cytoplasmic antiproteinase. A single 2.3-kilobase bomapin transcript is highly expressed in human bone marrow cells but was undetectable in all other analyzed human tissues. In vitro transcription and translation of the bomapin cDNA revealed the synthesis of an appropriately sized protein that was able to form SDS-stable complexes with thrombin and trypsin. The restricted expression of bomapin to the bone marrow raises the possibility that this serpin may play a role in the regulation of protease activities during hematopoiesis.
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PMID:Molecular cloning of bomapin (protease inhibitor 10), a novel human serpin that is expressed specifically in the bone marrow. 759 9

A Limulus intracellular coagulation inhibitor, designated LICI, was isolated from hemocytes of the Japanese horseshoe crab (Tachypleus tridentatus), using three steps of chromatography, including dextran sulfate-Sepharose CL-6B, Sephacryl S-200, and Mono S. LICI is a single-chain glycoprotein with an apparent M(r) = 48,000 estimated by SDS-polyacrylamide gel electrophoresis. It blocks the amidolytic activities of Limulus lipopolysaccharide-sensitive serine protease, factor C, by forming a covalent 1:1 complex with the protease. The second-order rate constant for inhibition of factor C was 2.5 x 10(6) M-1 s-1 at 37 degrees C. LICI also inhibited human alpha-thrombin, rat salivary kallikrein, bovine plasmin, and trypsin but not Limulus clotting enzyme, Limulus factor B, bovine factor Xa, human factor XIa, human tissue plasminogen activator, human urokinase, chymotrypsin, elastase, and papain. Glycosaminoglycans such as heparin and heparan sulfate had no effect on the inhibitory activity. A cDNA coding for LICI was isolated from a hemocyte cDNA library. The open reading frame of the 1,257-base pair cDNA codes for the mature protein of 394 amino acids, of which 223 residues were confirmed by amino acid sequence analysis. LICI shows significant sequence identities to members of the serpin superfamily, such as human plasminogen activator inhibitor type 2 (40%) and human monocyte/neutrophil elastase inhibitor (39%). LICI contains a putative reactive site, -Arg-Ser-, at the corresponding position present in several inhibitors of the serpin superfamily. The subcellular localization, determined using an anti-LICI polyclonal antibody, indicated that LICI colocates with the Limulus serine protease zymogens in large granules in the hemocyte.
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PMID:A Limulus intracellular coagulation inhibitor with characteristics of the serpin superfamily. Purification, characterization, and cDNA cloning. 827 48

The contribution of a covalent bond to the stability of complexes of serine proteinases with inhibitors of the serpin family was evaluated by comparing the affinities of beta-trypsin and the catalytic serine-modified derivative, beta-anhydrotrypsin, for several serpin and non-serpin (Kunitz) inhibitors. Kinetic analyses showed that anhydrotrypsin had little or no ability to compete with trypsin for binding to alpha 1-proteinase inhibitor (alpha 1PI), plasminogen activator inhibitor 1 (PAI-1), antithrombin (AT), or AT-heparin complex when present at up to a 100-fold molar excess over trypsin. By contrast, equimolar levels of anhydrotrypsin blocked trypsin binding to non-serpin inhibitors. Equilibrium binding studies of inhibitor-enzyme interactions monitored by inhibitor displacement of the fluorescence probe, p-aminobenzamidine, from the enzyme active site, confirmed that the binding of serpins to anhydrotrypsin was undetectable in the case of alpha 1PI or AT (KI > 10(-5) M), of low affinity in the case of AT-heparin complex (KI 7-9 x 10(-6) M), and of moderate affinity in the case of PAI-1 (KI 2 x 10(-7) M). This contrasted with the stoichiometric high affinity binding of the serpins to trypsin as well as of the non-serpin inhibitors to both trypsin and anhydrotrypsin. Maximal KI values for serpin-trypsin interactions of 1 to 8 x 10(-11) M, obtained from kinetic analyses of association and dissociation rate constants, indicated that the affinity of serpins for trypsin was minimally 4 to 6 orders of magnitude greater than that of anhydrotrypsin. Anhydrotrypsin, unlike trypsin, failed to induce the characteristic fluorescence changes in a P9 Ser-->Cys PAI-1 variant labeled with a nitrobenzofuran fluorescent probe (NBD) which were shown previously to report the serpin conformational change associated with active enzyme binding. These results demonstrate that a covalent interaction involving the proteinase catalytic serine contributes a major fraction of the binding energy to serpin-trypsin interactions and is essential for inducing the serpin conformational change involved in the trapping of enzyme in stable complexes.
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PMID:Role of the catalytic serine in the interactions of serine proteinases with protein inhibitors of the serpin family. Contribution of a covalent interaction to the binding energy of serpin-proteinase complexes. 853 Apr 3

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