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)

Tegumental extracts from adult worms of Schistosoma mansoni contain an inhibitory activity to the S. mansoni 28-kDa serine protease and to pancreatic elastase. By using biotinylated elastase and streptavidin-agarose, the postulated protease inhibitor has been isolated from the crude worm extract in a single step. Monospecific rabbit antibodies raised against the protease inhibitor have immunoprecipitated a 56-kDa [35S]Met-labeled serine protease inhibitor which was designated Smpi56 (S. mansoni protease inhibitor, 56 kDa). Smpi56 binds tightly to and inhibits the 28-kDa protease of S. mansoni and pancreatic and neutrophil elastase but not papain, pepsin, thrombin, trypsin, chymotrypsin, proteinase K, urokinase and acetylcholinesterase. The biological function of Smpi56 is still not known, but in view of its elastase inhibitory activity it may be speculated that the parasite is employing Smpi56 to protect itself from activated neutrophils. Smpi56 may also potentially protect the parasite from its endogenous 28-kDa protease.
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PMID:Schistosoma mansoni: isolation and characterization of Smpi56, a novel serine protease inhibitor. 811 69

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 tripeptide compounds, Glu-Arg-Pro-amide (ERPm), D-Pro-Thr-Trp-amide (dPTWm) and thioproline-Thr-Trp (tPTW), were obtained by screening of synthetic peptides for growth-inhibitory activity toward cultured transformed cells. The effects of these peptide compounds on proteases were investigated and the results showed that these compounds enhanced the amidolytic activity of serine proteases despite the fact that each reaction was carried out under optimal conditions. ERPm stimulated the activities of trypsin, chymotrypsin, thrombin, plasmin urokinase and elastase. dPTWm also showed similar effects except that toward chymotrypsin. tPTW elevated the activity only of trypsin, chymotrypsin and thrombin. Stimulation of trypsin activity by these compounds was also confirmed by using casein as a substrate. None of these compounds affected the amidolytic activities of metalloproteinases (MMP-1 and MMP-9), cysteine proteinases (m- and mu-calpains, cathepsin B and papain) or an exopeptidase (leucine aminopeptidase). The activation was at least partly due to the stabilization of the catalytic activity of proteases as well as prevention of autolysis.
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PMID:Enhancement of catalytic activities of serine proteases by tripeptides compounds. 863 1

Scavengers of different active oxygen species affect fibrin plate lysis, catalysed by various proteinases, only at relatively high concentrations (> 10(-2) M). Singlet oxygen scavengers change proteinase activity insignificantly except for strong inhibition of pepsin and papain by sodium azide, but pepsin-by histidine, and fibrinolytic urokinase activity-by all used O2 delta 1 scavengers. Of all used scavengers of OH-radical only ethanol caused significant changes in the proteinases under study, except for alpha-chymotrypsin. The most strong inhibitory effect on proteinase activity was demonstrated by scavengers of superoxide radical. Thus, nitrotetrazolium blue strongly inhibited the activity of plasmin, urokinase (fibrinolytic activity), papain and pepsin. Catalase changed proteinase activity insignificantly, though it leads to total inhibition of pepsin activity at final 4.5 x 10(-4) M concentration. These facts and our previous findings on generating of active oxygen species by proteinases give us grounds to suppose that minor active oxygen species, endogenous for the "proteinase-substrate" system, can participate in the catalytic function of some proteinases.
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PMID:Effect of active oxygen species scavengers on fibrinolytic activity of some proteinases. 874 26

We have studied conformational changes of type-1 plasminogen-activator inhibitor (PAI-1) during a temperature-dependent inhibitor-substrate transition by measuring susceptibility of the molecule to non-target proteinases. When incubated at 0 degree C instead of the normally used 37 degrees C, a tenfold decrease in the specific inhibitory activity of active PAI-1 was observed. Accordingly, PAI-1 was recovered in a reactive-centre-cleaved form from incubations with urokinase-type plasminogen activator (uPA) and tissue-type plasminogen activator (tPA) at 0 degree C, but not at 37 degrees C. It thus behaved as a substrate for the target proteinases at the lower temperature. Active PAI-1 was exposed to a variety of non-target proteinases, including elastase, papain, thermolysin, trypsin, and V8 proteinase. It was found that specific peptide bonds in the reactive centre loop (RCL) and strand 5 in beta-sheet A (s5A) had a temperature-dependent proteolytic susceptibility, while the P17-P16 (E332-S333) bond, forming the hinge between s5A and the RCL, showed indistinguishable susceptibility to proteolysis by V8 proteinase at 0 degree and 37 degrees C. In latent and reactive-centre-cleaved PAI-1, all the bonds were resistant to proteolysis at the higher as well as the lower temperature. An anti-PAI-1 monoclonal antibody maintained the inhibitory activity of PAI-1 and prevented reactive centre cleavage at 0 degree C, and thus prevented substrate behaviour. Concomitantly, it caused specific changes in proteolytic susceptibility of s5A and the RCL, but it did not affect cleavage of the P17-P16 bond by V8 proteinase. Our observations suggest that temperature-dependent conformational changes of beta-sheet A and the RCL determine whether the serpin act as an inhibitor or a substrate. Furthermore they suggest that the RCL of PAI-1 is fully extracted from beta-sheet A in the inhibitory as well as in the substrate form, favoring a so-called induced conformational state model to explain why inhibitory activity requires partial insertion of the RCL into beta-sheet A.
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PMID:Conformational changes of the reactive-centre loop and beta-strand 5A accompany temperature-dependent inhibitor-substrate transition of plasminogen-activator inhibitor 1. 889 86

A method is presented for the preparation and use of fluorogenic peptide substrates that allows for the configuration of general substrate libraries to rapidly identify the primary and extended specificity of proteases. The substrates contain the fluorogenic leaving group 7-amino-4-carbamoylmethylcoumarin (ACC). Substrates incorporating the ACC leaving group show kinetic profiles comparable to those with the traditionally used 7-amino-4-methylcoumarin (AMC) leaving group. The bifunctional nature of ACC allows for the efficient production of single substrates and substrate libraries by using 9-fluorenylmethoxycarbonyl (Fmoc)-based solid-phase synthesis techniques. The approximately 3-fold-increased quantum yield of ACC over AMC permits reduction in enzyme and substrate concentrations. As a consequence, a greater number of substrates can be tolerated in a single assay, thus enabling an increase in the diversity space of the library. Soluble positional protease substrate libraries of 137, 180 and 6,859 members, possessing amino acid diversity at the P4-P3-P2-P1 and P4-P3-P2 positions, respectively, were constructed. Employing this screening method, we profiled the substrate specificities of a diverse array of proteases, including the serine proteases thrombin, plasmin, factor Xa, urokinase-type plasminogen activator, tissue plasminogen activator, granzyme B, trypsin, chymotrypsin, human neutrophil elastase, and the cysteine proteases papain and cruzain. The resulting profiles create a pharmacophoric portrayal of the proteases to aid in the design of selective substrates and potent inhibitors.
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PMID:Rapid and general profiling of protease specificity by using combinatorial fluorogenic substrate libraries. 1086 34

Cancer invasion and metastasis is a process requiring a coordinated series of (anti-)adhesive, migratory, and pericellular proteolytic events involving various proteases such as urokinase-type plasminogen activator (uPA)/plasmin, cathepsins B and L, and matrix metalloproteases. Novel types of double-headed inhibitors directed to different tumor-associated proteolytic systems were generated by substitution of a loop in chicken cystatin, which is nonessential for cysteine protease inhibition, with uPA-derived peptides covering the human uPA receptor binding sequence uPA-(19-31). The inhibition constants of these hybrids toward cysteine proteases are similar to those of wild-type cystatin (K(i), papain (pm), 1.9-2.4; K(i), cathepsin B (nm), 1.0-1.7; K(i), cathepsin L (pm), 0.12-0.61). FACS analyses revealed that the hybrids compete for binding of uPA to the cell surface-associated uPA receptor (uPAR) expressed on human U937 cells. The simultaneous interaction of the hybrid molecules with papain and uPAR was analyzed by surface plasmon resonance. The measured K(D) value of a papain-bound cystatin variant harboring the uPAR binding sequence of uPA (chCys-uPA-(19-31)) and soluble uPAR was 17 nm (K(D) value for uPA/uPAR interaction, 5 nm). These results indicate that cystatins with a uPAR binding site are efficient inhibitors of cysteine proteases and uPA/uPAR interaction at the same time. Therefore, these compact and small bifunctional inhibitors may represent promising agents for the therapy of solid tumors.
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PMID:A novel type of bifunctional inhibitor directed against proteolytic activity and receptor/ligand interaction. Cystatin with a urokinase receptor binding site. 1091 10

The SspB cysteine protease of Staphylococcus aureus is expressed in an operon, flanked by the sspA serine protease, and sspC, encoding a 12.9-kDa protein of unknown function. SspB was expressed as a 40-kDa prepropeptide pSspB, which did not undergo autocatalytic maturation. Activity of pSspB was reduced compared with 22-kDa mature SspB, but it was equivalent to mature SspB after incubation with SspA, which specifically removed the pSspB N-terminal propeptide. SspC abrogated the activity of pSspB when incubated in a 1:1 complex but had no effect on SspA or papain. Activity of the pSspB.SspC complex was restored when incubated with SspA, and SspC was cleaved by SspA but not pSspB. Thus, SspC maintains pSspB as an inert zymogen, and SspA is required for removal of the propeptide and inactivation of SspC. Like the papain protease family, SspB cleaved substrates with a hydrophobic amino acid at P2 but had a strong preference for arginine at P1. It did not cleave casein, serum albumin, IgG, or IgA, but it promoted detachment of cultured keratinocytes and cleaved fibronectin and fibrinogen at sites recognized by urokinase plasminogen activator and plasmin, respectively. It also processed high molecular weight kininogen in a manner resembling plasma kallikrein. Thus, SspB exhibits a novel maturation mechanism and mimics the specificity of plasma serine proteases.
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PMID:Identification of a novel maturation mechanism and restricted substrate specificity for the SspB cysteine protease of Staphylococcus aureus. 1220 24

New analogues of the Gly-Pro-Arg and Arg-Gly-Asp fragments of fibrinogen were synthesized: Gly-Pro-Arg-Pro (I), Gly-Pro-Arg-Pro-Met-OMe (II), Gly-Pro-Arg-Pro-Phe (III), Gly-Pro-Arg-Pro-Asp (IV), Gly-Pro-Arg-Pro-Glu (V), and Arg-Asn-Trp-Asp (VI). Their effect on the activity of proteases of various types was studied with the method of lysis of fibrin plates. All the peptides were found to inhibit plasmin activity (by 60-85%) and the gamma-subunit of nerve growth factor (by 55-93%). Tetrapeptide (VI) proved to be an effective inhibitor of tissue activator of plasminogen and the gamma-subunit of nerve growth factor (by 96 and 93%, respectively). The peptides exerted practically no effect on the activity of urokinase and moderately inhibited the activity of streptokinase [(III), (IV), and (VI)], papain [(I), (II), (IV), and (VI)], subtilisin [(V) and (VI)], alpha-chymotrypsin [(III), (V), and VI)], and Bacillus subtilis metalloprotease (VI). They inhibit trypsin [except for (I) and (III)] when applied on fibrin plates at a concentration of 1 x 10(-2) M, while, at a concentration of 1 x 10(-3) M, (I) and (II) induced an increase in proteolytic activity by 35 and 47%, respectively.
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PMID:[Synthesis of modified fragments of fibrinogen and their effect on the activity of proteolytic enzymes]. 1663 85

We showed, using the method of lysis of fibrin plates and five substrate proteins in a thin layer of agar gel, that inorganic orthophosphate (0.001-0.06 M) enhances by 50-250% the activatory functions of streptokinase, urokinase, and tissue plasminogen activator and, in general, by 1.2-12.0 times enhances protein lysis by trypsin, alpha-chymotrypsin, subtilisin, papain, bacterial metalloprotease, and even pepsin at a concentration < 4 mM. At higher concentrations, phosphate sharply inhibited pepsin activity and inhibited by 40-50% gelatin lysis by papain and gelatin (at a peak concentration) and casein lysis by metalloprotease. Inorganic pyrophosphate ions at concentrations of 10(-8)-10(-1) M enhanced the cleavage of a number of proteins by serine proteases and, at concentrations of 10(-5) -10(-3) M, the activities of pepsin, plasminogen tissue activator, and streptokinase by 100 and 40%, respectively. The pyrophosphate concentrations of > 10(-3) and >10(-4) M inhibited pepsin- and metalloprotease-induced lysis of virtually all proteins. ATP increased casein lysis by serine proteases, metalloprotease, and pepsin by 20-60% at concentration of 10(-3) M and by 30-260% at 10(-2) M concentration. At concentrations of 10-2 M, it inhibited the cleavage of some proteins by trypsin, chymotrypsin, papain, and metalloprotease by 20-100%, and, at concentrations of 10(-3) M, lysis of albumin with pepsin and other proteins (except for fibrinogen) by metalloprotease. A GTP concentration of 10(-7)-10(-2) M increased protein degradation by serine proteases, papain, and gelatin lysis by pepsin by 20-90%, whereas albumin lysis was inhibited by 40-70%. The presence of 10(-6)-10(-5) M GTP led to a slightly increased degradation of hemoglobin and casein by bacterial metalloprotease, while 10(-3) M GTP induced a drop in the activity of the metalloprotease by 20-50%. ADP could enhance gelatin lysis by trypsin, casein lysis by pepsin and papain, and inhibited metalloprotease activity by 20-100% (at 10(-3) M). Peculiarities of the effects of AMP and GD(M)P on gelatin lysis were found.
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PMID:[Effects of biogenic phosphates on protease-induced protein cleavage and functioning of plasminogen activators]. 1867 89


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