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:3.4.21.4 (trypsin)
42,187 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

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 amino acid sequence of protease inhibitor II, previously isolated from bovine spleen, has been completely elucidated and reveals a high homology (approximately 90%) with that of bovine pancreatic trypsin inhibitor (BPTI), the well-known Kunitz inhibitor. The secondary and tertiary structure of this new inhibitor appears similar to that of BPTI. Whereas its affinity for bovine trypsin, chymotrypsin, and trypsinogen is almost identical to that of BPTI, the affinity for porcine pancreatic kallikrein is decreased, as expected on the basis of the amino acid substitutions. Analysis of the pH dependence of the affinity constant confirms the previous assignment of the ionizable groups, whose pK values are perturbed on complex formation, to kallikrein and not to the inhibitor molecule.
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PMID:Primary structure and antiproteolytic activity of a Kunitz-type inhibitor from bovine spleen. 241 11

It was confirmed that esterolytic activity was significantly elevated in plasma of patients with acute pancreatitis, which correlated better with the stage of the disease than serum amylase level. Using the several column chromatography procedures, pancreatic kallikrein, trypsin and pancreatic elastase were separated and purified from alpha 2-macroglobulin (alpha 2-M) fractions of patients plasma with acute pancreatitis. From this this result, it was confirmed that kallikrein was liberated into the blood stream from the pancreas during attacks of acute pancreatitis and the liberated kallikrein combined with alpha 2-M. Furthermore, the coexistence of trypsin is required for the complex formation of alpha 2-M and pancreatic kallikrein. It was speculated that alpha 2-M might be decomposed by the excessive amount of elastase, and consequently, might release all of its combining enzymes into the blood stream. In the present study, the activation mechanism of fibrinolytic enzyme system in plasma by human pancreatic elastase was investigated. Elastase not only converted the co-existing plasminogen to low molecular weight plasminogen which could be easily activated by the activators, but also inhibited alpha 2-M and alpha 2-plasmin inhibitor, and consequently, induced the activation of the fibrinolytic enzyme system in plasma. Furthermore, it was also confirmed that elastase could activate plasma kallikreinogen to kallikrein.
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PMID:[Interaction of proteases and their inhibitors in the pathogenesis of pancreatitis]. 241 45

Treatment of aprotinin with Raney nickel in the presence or absence of denaturants yielded [Ala2 14,38]aprotinin. Aprotinin and [Ala2 14,38]aprotinin were separated by ion exchange chromatography at pH 8 using CM-Sepharose, fast flow. [Ala2 14,38]aprotinin is a proteinase inhibitor, but it possesses lower affinities than aprotinin, for the enzymes trypsin, alpha-chymotrypsin, pancreatic kallikrein and plasmin as reflected by higher Ki values [Ala2 14,38]aprotinin is slowly degraded by trypsin. The optical activity of [Ala2 14,38]aprotinin in different solvents is quite similar to that of aprotinin, or that of its hydrolysis products, [seco-15/16]aprotinin or [di-seco-15/16,39/40]-aprotinin. This is taken as good evidence for analogous molecular conformations of all these substances.
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PMID:[Ala214,38]aprotinin: preparation by partial desulphurization of aprotinin by means of Raney nickel and comparison with other aprotinin derivatives. 243 18

Inhibitory effects of nafamostat mesilate (nafamostat) on various enzymes were investigated, and they were compared with those of gabexate mesilate (gabexate), leupeptin, aprotinin and urinastatin in vitro. Nafamostat inhibited trypsin, plasmin, thrombin, pancreatic kallikrein, Clr and Cls more potently than gabexate and leupeptin. Gabexate and leupeptin did not inhibit pancreatic kallikrein and thrombin, respectively. Aprotinin inhibited trypsin, plasmin, pancreatic kallikrein and chymotrypsin. Urinastatin inhibited trypsin and chymotrypsin. Nafamostat inhibited the complement-mediated hemolysis in diluted serum more potently than gabexate and leupeptin, but aprotinin and urinastatin did not. Nafamostat, furthermore, inhibited the complement-mediated hemolysis in undiluted serum, but gabexate did not. Unlike aprotinin and urinastatin, nafamostat and gabexate inhibited alpha 2-macroglobulin bound trypsin as well as free trypsin to the same extent. The inhibitory effect of gabexate toward trypsin was reduced more markedly than that of nafamostat after incubation with plasma at 37 degrees C. These results show that nafamostat is more useful than other inhibitors such as gabexate, leupeptin, aprotinin and urinastatin.
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PMID:[Comparative studies of nafamostat mesilate and various serine protease inhibitors in vitro]. 243 41

The inhibition of trypsin, human blood plasma kallikrein and porcine pancreatic kallikrein by aprotinin (native and immobilized on carboxymethyl ester of dextran) was investigated. The experimental values of Ki of native and immobilized aprotinin--enzyme complexes are equal to 0.037 and 0.045 nM for trypsin, 0.38 and 112.3 nM for pancreatic kallikrein and 34.4 and 454.5 nM for plasma kallikrein with N alpha-benzoyl-L-arginine ethyl ester as substrate, and to 82.6 and 231.7 nM for plasma kallikrein with a natural substrate--kininogen. These data suggest that covalent binding of aprotinin to the water-soluble polysaccharide carrier does not interfere with its interaction with trypsin, whereas the inhibition of kallikreins decreases, especially that of pancreatic kallikrein. The experimental results indicate the marked differences in the structure of the binding site of the active center (or its environment) of plasma and pancreatic kallikreins, on one hand, and trypsin, on the other, as well as the differences between the plasma and pancreatic kallikreins. A high requirement of kallikreins to the maintenance of the native conformation of aprotinin during immobilization is postulated.
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PMID:[Effect of covalent binding of aprotinin with a polysaccharide carrier on its inhibition of kallikrein from human plasma, porcine pancreatic kallikrein and trypsin]. 243 35

To assess possible roles of the renal kallikrein-kinin system in the development of spontaneous hypertension, we determined daily excretion of urinary total and active kallikrein in 6-week-old spontaneously hypertensive rats (SHR) and Wistar-Kyoto (WKY) rats for up to 2 weeks. We also evaluated the effect of aprotinin, a reversible inhibitor of kallikrein and other serine proteases, on the development of hypertension in the 6-week-old SHR on ordinary intakes of sodium or on sodium loading with 1% NaCl for up to 2 weeks. Active kallikrein was determined by its kininogenase activity, and the generated kinins were radio-immunologically measured. Total kallikrein was also determined by measuring kininogenase activity after inactive kallikrein had been activated with trypsin (200 micrograms/ml). Urinary active kallikrein excretion was significantly reduced in 7-week-old SHR (1.5 +/- 0.2 microgram/day compared to 2.8 +/- 0.3 micrograms/day in WKY, P less than 0.05) and in 8-week-old SHR (1.6 +/- 0.2 microgram/day compared to 3.2 +/- 0.4 micrograms/day in WKY, P less than 0.01). Urinary total kallikrein excretion was also reduced in the 7- and 8-week-old SHR whereas the ratio of active to total kallikrein did not change. In addition, renal contents of total and active kallikrein were significantly lower in the 8-week-old SHR than in the controls.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Renal kallikrein activity in spontaneously hypertensive rats. 244 68

On incubation of [di-seco-15/16,39/40]aprotinin with human plasmin, porcine pancreatic kallikrein or bovine or porcine trypsin in neutral or slightly alkaline solutions [seco-39/40]aprotinin is slowly formed with enzymatic resynthesis of the reactive-site bond 15/16. With chymotrypsin, however, further degradation of [di-seco-15/16,39/40]aprotinin takes place without enzymatic resynthesis. The apparent rate constants for the synthesis of [seco-39/40]aprotinin with kallikrein and trypsin have been determined and indicate that the bond-forming reaction is 10-200-fold slower with [di-seco-15/16,39/40]aprotinin than with [seco-15/16]aprotinin. The newly formed [seco-39/40]aprotinin has similar kinetic constants for the complexation with its cognate enzymes as aprotinin, indicating that any distortion of the secondary binding region due to cleavage of the Arg39-Ala40 bond does not seriously influence binding and affinities.
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PMID:Enzymatic resynthesis of the "reactive site" bond in the modified aprotinin derivatives [seco-15/16]aprotinin and [Di-seco-15/16,39/40]aprotinin. 246 26

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


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