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:3.4.21.5 (thrombin)
33,306 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Peptides containing alpha-aminoboronic acids with neutral side chains are highly effective reaction intermediate analog inhibitors of the serine proteases leukocyte elastase, pancreatic elastase, and chymotrypsin. A protocol has been developed for the synthesis of peptides containing alpha-aminoboronic acids with a basic, 3-guanidinopropyl side chain (boroArg) to extend the range of these compounds to trypsin-like proteases. Ac-(D)Phe-Pro-boroArg-OH, Boc-(D)Phe-Pro-boroArg-OH, and H-(D)Phe-Pro-boroArg-OH were prepared as inhibitors of thrombin based on earlier observations that it has a high affinity for this sequence. All three boronic acids are highly effective, slow-binding inhibitors of thrombin, inhibiting it with final inhibition constants and association rates of: 41 pM, 5.5 x 10(6) M-1 s-1; 3.6 pM, 9.3 x 10(6) M-1 s-1; less than 1 pM, 8.0 x 10(6) M-1 s-1, respectively. Comparison of their binding at equilibrium to thrombin, plasma kallikrein, factor Xa, plasmin, and two-chain tissue plasminogen activator has shown that all three inhibitors have at least 2 orders of magnitude greater affinity for thrombin, with the exception of the acetyl derivative which has a 40-fold greater affinity for thrombin than kallikrein. The boroarginine peptides are effective in inhibiting the action of thrombin in rabbit plasma against its physiological substrates. Activated partial thromboplastin time was significantly prolonged in vitro by all of the inhibitors at concentrations of 50-200 nM. Prolongations of activated partial thromboplastin time were also observed in rabbits after intravenous (40-80 micrograms/kg or subcutaneous (0.20-2 mg/kg) injections of Ac-(D)Phe-Pro-boroArg-OH. Results indicate that this new class of synthetic thrombin inhibitors may be clinically useful as antithrombotic agents.
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PMID:The selective inhibition of thrombin by peptides of boroarginine. 221 2

This study investigated the reaction of heparin cofactor II (HCII) with stimulated polymorphonuclear leukocytes (PMN). We have expanded upon previous studies showing that HCII can be degraded by stimulated PMN (Sie, P., Dupouy, D., Dol, F., and Boneu, B., Thromb. Res. 47, 657-664, 1987), and that chemotactic activity is produced when HCII is partially proteolyzed with purified leukocyte elastase or cathepsin G (Hoffman, M., Pratt, C.W., Brown, R.L., and Church, F.C., Blood, 73, 1682-1695, 1989). We found that HCII was proteolyzed by stimulated PMN, generating peptides with chemotactic activity. Both proteolysis and generation of chemotactic activity were inhibited by a specific leukocyte elastase inhibitor and by more general proteinase inhibitors. Leukocyte elastase activity was lost upon addition of either inhibitor. Heparin and dermatan sulfate altered the pattern of proteolysis. Our results suggest that HCII may be involved not only in functions related to thrombin inhibition but also in regulating acute inflammation.
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PMID:Production of chemotactic peptides by neutrophil degradation of heparin cofactor II. 230 Sep 26

By sensitive and specific radioimmunoassays PAPP-A and PP5 were detected in follicular aspirates obtained from women undergoing ovarian hyperstimulation for oocyte harvest prior to in vitro fertilization and embryo transfer. Follicular and pregnancy-derived PAPP-A were immunologically and physicochemically indistinguishable. Similarly, pregnancy- and nonpregnancy-derived PP5 were immunologically indistinguishable. However, in addition to the 18- and 36-K species, a larger species having a molecular size greater than 140K was found in the follicular fluid. Mean follicular PAPP-A and PP5 concentrations were 727 mIU/L and 1376 mAU/L, respectively, with no significant correlation between follicular PAPP-A, PP5, and steroid concentrations. There was, however, a significant but negative relationship with follicular volume. Preliminary in vitro studies indicated that both proteins were synthesized by granulosa cells in preparation for follicular rupture. Follicular PP5, like antithrombin III, interacted reversibly with heparin and thrombin affinity matrices, suggesting a potential biological role as a follicular anticoagulant, whereas PAPP-A, a specific and potent inhibitor of leukocyte elastase, contributes to the maintenance of proteolytic homeostasis and the protection of spermatozoa and embryo against proteolytic attack originating from the maternal leukocytes.
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PMID:Pregnancy-associated plasma protein-A and placental protein 5 in human ovarian follicular fluid. 240 57

The [Arg15,Glu52]aprotinin gene has been constructed from a synthetic [Glu52]-aprotinin gene via an exchange of the appropriate DNA cassette. The gene has been fused to the N-terminal part of the bacteriophage MS-2 polymerase and expressed in a temperature inducible E. coli expression system. The produced fusion protein is deposited as inclusion bodies. Pure and functionally active [Arg15,Glu52]aprotinin has been obtained after cleavage of the purified fusion protein and renaturation of the aprotinin homologue. Recombinant [Arg15,Glu52]aprotinin shows good inhibition of human anionic and cationic trypsin (Ki less than or equal to 10(-11)M) and of human plasma kallikrein (Ki = 3.2 x 10(-10)M). The inhibition constants for human plasmin are Ki = 1.3 x 10(-10)M and for human urinary kallikrein Ki = 10(-11)M. No inhibition was found with the human proteinases thrombin, coagulation factor Xa, urokinase, tissue plasminogen activator, cathepsin G, leukocyte elastase and pancreatic elastase.
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PMID:Expression, isolation and characterization of recombinant [Arg15,Glu52]aprotinin. 246 33

Human polymorphonuclear leukocyte elastase (PMN elastase) is inhibited by L-659,286 (7 alpha-methoxy-8-oxo-3-[[(1,2,5,6-tetrahydro-2-methyl-5,6-dioxo-1,2,4- triaz-in-3-yl)thio]methyl]-5-thia-1-aza-6R-bicyclo[4.2.O]oct-2-ene -2- pyrrolidine carboxamide-5,-dioxide) with a Ki of 0.4 microM. This inhibition is time-dependent, rapid, and only slowly reversible, with a t1/2 of greater than 3 days at 25 degrees C. L-659,286 is also highly selective for PMN elastase, as it does not inhibit thrombin, trypsin, papain, plasmin, chymotrypsin, or cathepsin G. L-659,286 administered intratracheally inhibits lung damage caused by administration via the same route of human PMN elastase into hamsters. In marmosets, L-659,286 is cleared from blood very rapidly after an intravenous injection but is recovered in bronchoalveolar lavage fluid for several hours after intratracheal administration.
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PMID:Pharmacological profile of the substituted beta-lactam L-659,286: a member of a new class of human PMN elastase inhibitors. 249 9

Nonporous, microparticulate, monodisperse silicas with particle diameters between 0.7 and 2.1 microns are introduced as stationary phases in high-performance affinity chromatography. The immobilization of m-aminophenylboronic acid, p-aminobenzamidine, tri-L-alanine, and concanavalin A onto these silicas was successfully achieved using 3-isothiocyanatopropyl-triethoxysilane as an activation reagent. Immobilized phenylboronic acid was applied to the isolation of nucleosides, nucleotides, and glycoprotein hormones such as bovine follicotropin and human chorionic gonadotropin, while immobilized benzamidine was employed for the isolation of the serine proteases thrombin and trypsin, immobilized tri-L-alanine for the separation of pig pancreatic elastase and human leukocyte elastase, and immobilized concanavalin A for the isolation of horseradish peroxidase. In all affinity chromatographic systems studied, the nonporous monodisperse silicas showed improved chromatographic performance compared to results obtained with porous silica supports using identical activation and immobilization procedures. Furthermore, frontal analysis was used as a method to evaluate the influence of experimental parameters on biological activity and accessible ligand densities. Only minor changes in bioactivity were found with the nonporous affinity supports, where accessibilities were typically higher than ca. 60%. The immobilization of affinity ligands onto porous supports as used in this and associated papers thus represents a successful general procedure for the preparation of stable matrices with fast kinetics for use in high-performance affinity chromatography.
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PMID:High-performance liquid affinity chromatography with phenylboronic acid, benzamidine, tri-L-alanine, and concanavalin A immobilized on 3-isothiocyanatopropyltriethoxysilane-activated nonporous monodisperse silicas. 254 22

Isocoumarins are potent mechanism-based heterocyclic irreversible inhibitors for a variety of serine proteases. Most serine proteases are inhibited by the general serine protease inhibitor 3,4-dichloroisocoumarin, whereas isocoumarins containing hydrophobic 7-acylamino groups are potent inhibitors for human leukocyte elastase and those containing 7-alkylureidogroups are inhibitors for procine pancreatic elastase. Isocoumarins containing basic side chains that resemble arginine are potent inhibitors for trypsin-like enzymes. A number of 3-alkoxy-4-chloro-7-guanidinoisocoumarins are potent inhibitors of bovine thrombin, human factor Xa, human factor XIa, human factor XIIa, human plasma kallikrein, porcine pancreatic kallikrein, and bovine trypsin. Another cathionic derivative, 4-chloro-3-(2-isothiureidoethoxy) isocoumarin, is less reactive toward many of these enzymes but is an extremely potent inhibitor of human plasma kallikrein. Several guanidinoisocoumarins have been tested as anticoagulants in human plasma and are effective at prolonging the prothrombin time. The mechanism of inhibition by this class of heterocyclic inactivators involves formation of an acyl enzyme by reaction of the active site serine with the isocoumarin carbonyl group. Isocoumarins with 7-amino or 7-guanidino groups will then decompose further to quinone imine methide intermediates, which react further with an active site residue (probably His-57) to form stable inhibited enzyme derivatives. Isocoumarins should be useful in further investigations of the physiological function of serine proteases and may have future therapeutic utility for the treatment of emphysema and coagulation disorders.
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PMID:Mechanism-based isocoumarin inhibitors for serine proteases: use of active site structure and substrate specificity in inhibitor design. 265 46

Treatment of platelets with human leukocyte elastase causes a rapid loss in response to von Willebrand factor and a biphasic loss in response to thrombin, first rapid then more slowly. The rapid phase corresponds to cleavage of a 45-kDa glycopeptide from the extracellular end of membrane glycoprotein GPIb. Longer treatment removes 80-kDa and 90-kDa glycopeptides and a glycopeptide corresponding to the major part of GPV. The 45-kDa and 90-kDa species could be obtained by elastase treatment of glycocalicin, the major proteolytic cleavage product of GPIb. Polyclonal rabbit antibodies against the purified 45-kDa glycopeptide had the same effect on the action of von Willebrand factor and thrombin on platelets as cleavage of GPIb by elastase. These results indicate that both the von Willebrand factor and thrombin binding sites on GPIb are located in the same region on the outside of the molecule. Thrombin activation of platelets involves at least two receptors, one on the 45-kDa glycopeptide, which when occupied causes an increase in the speed of response of the platelets to the cleavage of the second. GPV, a candidate for the second receptor, is a hydrophobic glycoprotein that is cleaved from the platelet membrane by several proteases. Proteases that do not activate platelets but degrade the second receptor remove larger fragments from GPV than do proteases such as thrombin or trypsin which activate platelets.
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PMID:Structure and function of platelet membrane glycoproteins Ib and V. Effects of leukocyte elastase and other proteases on platelets response to von Willebrand factor and thrombin. 293 56

Artificial membranes used for hemodialysis differ from endogenous membranes, i.e. endothelial cells, by their variable thrombogenicity. The key step in activation of the coagulation system by dialysis membranes is thrombocyte activation which is preceded by formation of a protein layer of critical thickness. Crucial questions concerning the quality of this protein membrane as a determinant of thrombocyte activation are not well understood. Activation of the contact phase of the intrinsic plasmatic coagulation system by dialysis membranes is well documented. Local action of thrombin in the membrane microenvironment is documented by release of fibrinopeptide A and deposition of fibrin on the membrane. Apart from thrombin, other mechanisms, e.g. PMN elastase, plasma-independent activation of blood cells, facilitatory action of erythrocytes etc., may play a contributory role. With respect to the polycarbonate membrane, some authors find less platelet extraction and unchanged platelet release reaction. In our own studies, polycarbonate membranes were not superior to cuprophane membranes with respect to thrombogenicity.
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PMID:Dialysis membranes and coagulation system. 294 55

Thrombospondin (TSP) is a multifunctional platelet alpha-granule and extracellular matrix glycoprotein that binds specifically to plasminogen (Plg) via that protein's lysine-binding site and modulates activation by tissue activator (TPA). In this study we report that the plasminogen activators, TPA and urokinase, greatly influence the binding of Plg to TSP. Using an enzyme-linked immunosorbent assay and a TSP-Sepharose affinity bead-binding assay we have found that Plg-TSP complex formation was markedly enhanced (up to 5-fold) when catalytic concentrations of Plg activators were included in the reaction mixtures. The enhancement was dependent upon the generation of small amounts of active plasmin and was duplicated by pretreatment of the immobilized TSP with plasmin prior to addition of the Plg. The enhancement effect was associated with selective proteolysis of the immobilized TSP. Purified Lys-Plg (the plasmin modified form of native Glu-Plg) bound to TSP to a greater extent than Glu-Plg, and binding of both forms was augmented by Plg activators. The apparent KD values of complex formation were unchanged in the presence of Plg activators suggesting that the enhancement effect was due to the generation of additional binding sites. The increased amount of bound Plg was demonstrated to result in a similar increase in the amount of plasmin generated from the complexes by TPA. Plg activators did not influence binding of Plg to histidine-rich glycoprotein or of histidine-rich glycoprotein to TSP, demonstrating specificity. In addition when TSP was treated with other proteases (human thrombin or human leukocyte elastase) no augmentation of Plg binding was seen. Thus, the initial production of small amounts of plasmin from Plg immobilized on TSP in fibrin-free microenvironments could generate a positive feedback loop by enzymatically modifying both TSP and Plg, resulting in an increase in TSP-Plg complex formation leading to the localized production of substantially more plasmin.
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PMID:Tissue plasminogen activator and urokinase enhance the binding of plasminogen to thrombospondin. 294 36


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