Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.6 (thromboplastin)
 13,278 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A series of amino acids, amidino acids, and amidino esters was synthesized and the compounds were evaluated for their inhibitory activity against bovine trypsin, bovine thrombin, and porcine pancreatic kallikrein and as anticoagulants. Among these compounds, ethyl 4-amidino-2-iodophenoxyacetate was found to be the most effective inhibitor of the enzymes in question, with a potency (Ki = 3.16 x 10-6 M vs. trypsin; Ki = 4.8 x 10-5 M vs. thrombin) similar to that of p-amidinophenylpyruvic acid (Ki = 6.0 x 10-6 M vs. trypsin; Ki = 2.0 x 10-5 M vs. thrombin). Ethyl 4-amidino-2-iodophenoxyacetate was also found to be the most effective in blocking the clotting activity of plasma, as indicated by significant prolongation of the partial thromboplastin time. This paper reports the synthetic methods, the enzyme inhibitory activity, and the structure-activity relationships observed.
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PMID:Synthesis of isosteres of p-amidinophenylpyruvic acid. Inhibitors of trypsin thrombin, and pancreatic kallikrein. 113 20

Seven arginylfluoroalkanes ('arginine fluoroalkyl ketones') were synthesized by using a modified Dakin-West procedure. The structure of benzoyl-Arg-CF2CF3 was analysed by 19F-n.m.r. spectroscopy and m.s. and the compound was shown to exist primarily as a hydrate or cyclic carbinolamine. Arginylfluoroalkanes are good inhibitors of blood-coagulation serine proteinases and were found to be slow-binding inhibitors for bovine trypsin with Ki values of 0.2-56 microM. Benzoyl-Arg-CF2CF3 was the best inhibitor for bovine thrombin and human Factor XIa, and inhibited thrombin and Factor XIa competitively with Ki values of 13 microM and 62 microM respectively. The best inhibitor for pig pancreatic kallikrein was p-toluoyl-Arg-CF3, with a Ki value of 35 microM. Benzoyl-Arg-CF3 and benzoyl-Arg-CF2CF3 inhibited human plasma kallikrein competitively, with Ki values of 50 microM. None of the seven arginylfluoroalkanes was a good inhibitor of human factor Xa or of Factor XIIa. The arginylfluoroalkanes were tested in the prothrombin time (PT) and activated partial thromboplastin time (APTT) coagulant assays. Two fluoroketones, benzoyl-Arg-CF2CF3 and 1-naphthoyl-Arg-CF3, had significant anticoagulant activity. Benzoyl-Arg-CF2CF3 was found to prolong the PT 1.8-fold at 120 microM and to prolong the APTT 2.4-fold at 90 microM, whereas 1-naphthoyl-Arg-CF3 only prolonged the APTT 1.7-fold at 100 microM.
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PMID:The synthesis of arginylfluoroalkanes, their inhibition of trypsin and blood-coagulation serine proteinases and their anticoagulant activity. 230 84

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

The interactions of mouse murinoglobulin and alpha-macroglobulin with several proteinases were investigated by filtration and by assays of amidolytic activity towards synthetic substrates in the presence of proteinaceous enzyme inhibitors as well as assays of the inhibition of proteolytic activity. Mouse alpha-macroglobulin formed complexes with thrombin, clotting factor Xa, plasmin, pancreatic kallikrein, plasma kallikrein, submaxillary gland trypsin-like proteinase, neutrophil elastase, and pancreatic elastase. These complexes lost the proteolytic activities against high-molecular-weight substrates, but protected the active sites of the enzymes from inactivation by their proteinaceous inhibitors. Mouse murinoglobulin showed essentially the same properties except (i) that it did not form a complex with the clotting factor Xa, and (ii) that it did not protect plasma kallikrein, neutrophil elastase or submaxillary proteinase from inactivation by their proteinaceous inhibitors, although it formed complexes with these proteinases. No interaction was detected between Clostridium histolyticum collagenase and murinoglobulin or alpha-macroglobulin. These results indicate (i) that murinoglobulin has a proteinase-binding spectrum similar to that of alpha-macroglobulin, but is weaker in the ability to protect the bound proteinases from inactivation by the proteinaceous inhibitors than alpha-macroglobulin and (ii) that mouse alpha-macroglobulin has essentially the same inhibitory spectrum as the human homologue.
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PMID:Proteinase inhibitory spectrum of mouse murinoglobulin and alpha-macroglobulin. 248 76

The effect of ONO-3307 (4-sulfamoyl phenyl-4-guanidinobenzoate methanesulfonate), a new protease inhibitor, was studied on various proteases in vitro and in an experimental thrombosis model in vivo. ONO-3307 competitively inhibited trypsin, thrombin, plasma kallikrein, plasmin, pancreatic kallikrein and chymotrypsin; and their Ki values were 0.048 microM, 0.18 microM, 0.29 microM, 0.31 microM, 3.6 microM and 47 microM, respectively. In addition, ONO-3307 inhibited both elastase release from N-formyl-Met-Leu-Phe (fMLP)-stimulated leukocytes and tissue thromboplastin release from endotoxin-stimulated leukocytes. To examine the effects of ONO-3307 on disseminated intravascular coagulation (DIC), we developed an experimental thrombosis model. ONO-3307 (10 mg/kg/hr) completely inhibited the deposition of radioactive fibrin in kidney and lung. Gabexate mesilate (50 mg/kg/hr) was also effective in this model, but the effect of nafamostat mesilate was unclear. These results indicate that ONO-3307 exhibits a wide range of inhibitory effects on various proteases, and ONO-3307 may be useful for the treatment of protease-mediated diseases such as thrombosis and DIC.
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PMID:Inhibitory effects of ONO-3307 on various proteases and tissue thromboplastin in vitro and on experimental thrombosis in vivo. 251 29

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

The inhibitory effect of the clinically used p-carbethoxyphenyl ester of epsilon-guanidino-caproic acid methanesulphonate (epsilon-GCA-CEP) on the catalytic properties of human LYS77-plasmin (EC 3.4.21.7), bovine factor Xa (EC 3.4.21.6), bovine alpha-thrombin (EC 3.4.21.5), ancrod (EC 3.4.21.28), crotalase (EC 3.4.21.30), bovine beta-trypsin (EC 3.4.21.4), porcine pancreatic beta-kallikrein-B (EC 3.4.21.35), human urinary kallikrein (EC 3.4.21.35) and the Mr 54,000 species of human urokinase (EC 3.4.21.31) was investigated (between pH 2.0 and 8.5, I = 0.1 M; T = 21 +/- 0.5 degrees C), and analyzed in parallel with that of the homologous derivative p-carbethoxyphenyl epsilon-amino-caproate hydro chloride (epsilon-ACA-CEP). On lowering the pH from 5.5 to 3.0, values of the apparent dissociation inhibition constant (Ki) for epsilon-GCA-CEP and epsilon-ACA-CEP interaction with the serine proteinases considered increase, reflecting the acidic pK-shift upon inhibitor binding of a single ionizing group. Over the whole pH range explored, (i) epsilon-GCA-CEP interacts with bovine factor Xa and bovine alpha-thrombin with an higher affinity than that observed for epsilon-ACA-CEP binding; (ii) both inhibitors associate to bovine beta-trypsin with the same affinity; and (iii) epsilon-ACA-CEP inhibits human Lys77-plasmin and the Mr 54,000 species of human urokinase with an higher affinity than that reported for epsilon-GCA-CEP association, thus reflecting the known enzyme primary specificity properties. However, the affinity of epsilon-ACA-CEP for ancrod, crotalase, porcine pancreatic beta-kallikrein-B and human urinary kallikrein, all of which preferably bind arginyl rather than lysyl side chains at the primary position of substrates and/or inhibitors, is paradoxically higher than that displayed by epsilon-GCA-CEP. By considering the amino acid sequences, the X-ray three-dimensional structures and/or the computer-generated molecular models of serine proteinase: inhibitor adducts, the observed binding behaviour of epsilon-GCA-CEP and epsilon-ACA-CEP to the enzymes considered has been related to the inferred stereochemistry of proteinase: inhibitor contact region(s).
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PMID:Inhibition of serine proteinases by p-carbethoxyphenyl esters of epsilon-guanidino- and epsilon-amino caproic acid: thermodynamic and molecular modeling study. 272 72

The inhibitory effect of gabexate mesylate, which is used therapeutically in the treatment of pancreatitis and disseminated intravascular coagulation, and as a regional anticoagulant agent for hemodialysis, has been measured on bovine factor Xa, bovine alpha-thrombin, human Lys77-plasmin, human urinary kallikrein, human urokinase, porcine pancreatic beta-kallikrein-B, and bovine beta-trypsin catalyzed hydrolysis of p-nitrophenyl esters of N-alpha-carbobenzoxy-L-arginine and N-alpha-carbobenzoxy-L-lysine. On the basis of enzyme:gabexate mesylate affinities, the serine proteases can be arranged as follows: human urinary kallikrein approximately porcine pancreatic beta-kallikrein-B much less than bovine beta-trypsin approximately bovine factor Xa approximately human Lys77-plasmin approximately human urokinase approximately bovine alpha-thrombin. The mode of binding of gabexate mesylate to the serine proteases conforms to the active-reactive site geometries observed in their complexes with natural and synthetic inhibitors. Differences in gabexate mesylate affinities for these proteases reflect structural differences at their primary specificity subsite, which have been investigated by comparative analysis of amino acid sequences and by computer-graphics techniques.
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PMID:Gabexate mesylate inhibition of serine proteases: thermodynamic and computer-graphics analysis. 310 78

Trypsin, porcine pancreatic kallikrein, and several blood coagulation enzymes, including bovine thrombin, bovine factor Xa, human factor Xa, human plasma factor XIa, human plasma factor XIIa, and human plasma kallikrein, were inactivated by a number of substituted isocoumarins containing basic functional groups (aminoalkoxy, guanidino, and isothiureidoalkoxy). 3-Alkoxy-4-chloro-7-guanidinoisocoumarins were found to be the most potent inhibitors for the coagulation enzymes tested with kobsd/[I] values in the range of 10(3)-10(5) M-1 s-1. 4-Chloro-3-isothiureidoalkoxyisocoumarins show high inhibitory potency toward porcine pancreatic kallikrein, human plasma kallikrein, human factor XIa, human factor XIIa, and trypsin with kobsd/[I] values of the order of 10(4)-10(5) M-1 s-1. The inhibition of these serine proteases by the substituted isocoumarins are time dependent, and the inactivation of trypsin by 3-alkoxy-4-chloro-7-guanidinoisocoumarins and 7-amino-4-chloro-3-(3-isothiureidopropoxy)isocoumarin occured concurrently with the loss of the isocoumarin absorbance. The complex formed from inactivation of trypsin by these two types of inhibitors was very stable and regained less than 4% activity in 4-(2-hydroxyethyl)-1-piperazineethanesulfonic acid buffer (pH 7.5) after 1 day at 25 degrees C and regained 8-45% activity upon addition of buffered 0.29 M hydroxylamine. Trypsin inactivated by other inhibitors regained full activity upon standing or addition of hydroxylamine. Thrombin inactivated by 3-alkoxy-4-chloro-7-guanidinoisocoumarins was also quite stable and only regained 9-15% activity under similar conditions. These results are consistent with a proposed mechanism, where serine proteases inactivated by aminoalkoxyisocoumarins or isothiureidoalkoxyisocoumarins form acyl enzymes that will deacylate upon standing or addition of hydroxylamine. However, the acyl enzymes formed from 3-alkoxy-4-chloro-7-guanidinoisocoumarins or 7-amino-4-chloro-3-(3-isothiureidopropoxy)-isocoumarin will decompose further, probably through a quinone imine methide, to give an irreversibly inactivated enzyme by reaction with an active-site nucleophile such as His-57. The quinone imine methide intermediate may also react with a solvent nucleophile to give an acyl enzyme that can be reactivated by hydroxylamine. The inhibitors 4-chloro-7-guanidino-3-methoxyisocoumarin and 4-chloro-3-ethoxy-7-guanidinoisocoumarin have been tested as anticoagulants in human plasma and were effective at prolonging the prothrombin time. However, they are unstable in plasma (t1/2 = 4-8 min), and their in vivo utility may be limited.
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PMID:Mechanism-based isocoumarin inhibitors for trypsin and blood coagulation serine proteases: new anticoagulants. 316 17

A new affinity chromatographic procedure was devised to purify inactive renin by using a selective hydrophobic interaction of inactive renin to octyl-Sepharose. Additional extensive purification was accomplished by immunoaffinity chromatography on antihuman renin immunoglobulin G-Sepharose. A trace amount of active renin was removed by chromatography on pepstatin-Sepharose. Human plasma inactive renin purified by this method was free from protease inhibitors and permitted the investigation of protease-mediated activation without the acid treatment which was used previously to remove inhibitors. Human plasma kallikrein, human plasmin, cathepsin B1, and arginine esteropeptidases associated with mouse epidermis growth factor and nerve growth factor were effective activators. Human urinary kallikrein, hog pancreatic kallikrein, and rat urinary esterase A were inefficient activators of low potency. Thrombin, factor Xa, factor XIIa, and urokinase did not activate inactive renin. The in vitro activation of 56,000-dalton inactive renin by these proteases was not accompanied by a recognizable reduction in molecular weight. Activation required plasma albumin, presumably as a protecting substance. These results suggest that human inactive renin can be activated by a minimum change in its molecular size.
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PMID:Human plasma inactive renin: purification and activation by proteases. 621 31


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