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)

Rat RNK-16 leukemia cells kill YAC-1, which are the cells lysed by rodent natural killer lymphocytes. We found chymotrypsin-like proteinase ('chymase') activity in the RNK-16 dense granules that also contain cytolytic activity. The chymase activity hydrolyzed the thiobenzyl peptide substrate Suc-Phe-Leu-Phe-SBzl and, in comparison to RNK-16 tryptase activity, was selectively inhibited by three different types of serine proteinase inhibitors. The selective inhibitors were the fungal aldehyde chymostatin, the chloromethylketone Z-Gly-Leu-Phe-CH2Cl, and the mechanism-based or 'suicide' inhibitor 7-amino-4-chloro-3-(2-phenylethoxy)isocoumarin. These proteinase inhibitors also blocked RNK-16 granule-mediated cytolysis. Chymostatin, a reversible inhibitor, delayed granule-mediated cytolysis, whereas the irreversible chloromethylketone and isocoumarin proteinase inhibitors completely abrogated granule-mediated cytolysis. The two irreversible inhibitors displayed biphasic inhibition of the chymase activity, indicating that at least two chymases are present in the granules. By Northern blot analysis, we found that RNK-16 mRNA hybridized strongly with a cDNA probe of CCPI, a mouse cytotoxic T lymphocyte serine proteinase gene. These data imply that chymase activity in the cytotoxic granules is important for cytolytic function and is likely to belong to a new subfamily of serine proteinases.
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PMID:Localization, implications for function, and gene expression of chymotrypsin-like proteinases of cytotoxic RNK-16 lymphocytes. 326 87

The distribution and concentration of human T (tryptase-positive, chymase-negative) and TC (tryptase-positive, chymase-positive) mast cells were examined in Carnoy's-fixed specimens of the gastrointestinal tract of normal individuals, patients with inflammatory bowel diseases, and patients with immunodeficiency disorders. In normal specimens, T mast cells predominated in the mucosa (89%), with a mean concentration of 17,850 +/- 4,998 per mm3 (+/- SD, n = 16), whereas TC mast cells predominated in the submucosa (90%) with a mean concentration of 7,516 +/- 1,227 per mm3 (+/- SD, n = 16). The concentrations of T and TC mast cells in specimens of ileum from five patients with active Crohn's disease and of colon from three patients with active ulcerative colitis were not significantly different (p greater than 0.4) from normal values. Three patients with combined immunodeficiency disorders demonstrated a marked decrease in the concentration of the T mast cells in the intestinal mucosa, to 540 +/- 630, and a corresponding decrease in the percentage of T mast cells to 9%. Concentrations of TC mast cells were unchanged, both in the mucosa and in the submucosa. In three patients with acquired immunodeficiency syndrome, a similar deficiency of the T mast cell type was observed in the ileal mucosa, with a mean concentration of 788 +/- 534 T mast cells per mm3, but not in the appendiceal and colonic mucosa of one of the three patients. These findings indicate a role for functional T lymphocytes in the development of the T mast cell type in humans, and suggest divergent pathways for development of T and TC mast cells.
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PMID:Deficiency of the tryptase-positive, chymase-negative mast cell type in gastrointestinal mucosa of patients with defective T lymphocyte function. 329 46

We have found that degranulation from mast cells is specifically inhibited by the inhibitors of chymase (10). Among the natural serine protease inhibitors tested, Bowman-Birk soybean protease inhibitor, Eglin C, and human alpha 1-antichymotrypsin inhibited chymase more strongly than did chymostatin, Kunitz soybean protease inhibitor, and phosphatidylserine. Of the inhibitors tested, Bowman-Birk soybean protease inhibitor was the strongest inhibitor of chymase, its Ki value being 13.2 X 10(-9) M. Kinetic studies showed that these inhibitors were all noncompetitive inhibitors of chymase. Bowman-Birk and Kunitz soybean protease inhibitors inhibited both chymotrypsin-type and trypsin-type serine proteases but Eglin C specifically inhibited chymotrypsin-type proteases.
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PMID:Kinetic studies on the inhibitions of mast cell chymase by natural serine protease inhibitors: indications for potential biological functions of these inhibitors. 347 19

Purified human C3a was iodinated (125I-C3a) and used to study the interaction of labeled peptide with rat peritoneal mast cells (RMC). Cellular binding of 125I-C3a occurred within 30 sec, followed by a rapid dissociation from the cell. Both the binding of 125I-C3a and the rate of dissociation from the cell were temperature dependent. At 0 degrees C, the binding of 125I-C3a was increased and the rate of dissociation reduced, as compared with 37 degrees C. Once 125I-C3a was exposed to RMC, it lost the ability to rebind to a second batch of RMC. Analysis of the supernatants by trichloroacetic acid (TCA) precipitation and electrophoresis in sodium dodecyl sulfate polyacrylamide gels (SDS PAGE) revealed a decrease in the fraction of 125I precipitable by TCA and the appearance of 125I-C3a cleavage fragments. Pretreatment of RMC with enzyme inhibitors specific for chymotrypsin, but not trypsin, abrogated the degradation of 125I-C3a. Treatment of RMC bearing 125I-C3a with bis (sulfosuccinimidyl) suberate (BS3) covalently cross-linked the 125I-C3a to chymase, the predominant enzyme found in the secretory granules. Antiserum directed against chymase precipitated 125I-C3a from extracts of RMC treated with BS3. Indirect immunofluorescence of RMC by using the IgG fraction of goat anti-rat chymase showed that chymase is present on the surface of unstimulated cells. Neither purified chymase nor heparin proteoglycan alone had any appreciable effect on 125I-C3a, but together they resulted in prompt degradation of the 125I-C3a. Immunoabsorption of RMC sonicates with specific antibody for chymase completely abrogated the ability of these sonicates to degrade 125I-C3a. The results indicate that 125I-C3a binds to RMC and is promptly degraded by chymase in the presence of heparin proteoglycan.
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PMID:Degradation of human anaphylatoxin C3a by rat peritoneal mast cells: a role for the secretory granule enzyme chymase and heparin proteoglycan. 351 5

The effects of specific low- and high-molecular weight inhibitors of chymase and tryptase and F(ab')2 of antichymase on histamine release from activated mast cells were examined. The release of histamine induced by anti-rat immunoglobulin E was markedly inhibited by F(ab')2 fragments of antichymase and the low-molecular weight inhibitor of chymase chymostatin, whereas release of histamine induced by calcium ionophore A23187 was inhibited only by chymostatin. Neither the inhibitor nor the antibody affected histamine release induced by compound 48/80. These results suggest that two main chymotrypsin-type proteases are involved in process of degranulation: one is chymase, which acts at a step before calcium entry, and the other is an unidentified protease, which acts at a step after calcium entry. These results are summarized in Figure 8. After degranulation, released chymase remains associated with the cell surface while released tryptase was found in the extracellular milieu. Tryptase converted bovine prothrombin to thrombin, as shown by increase in thrombin activity with a synthetic substrate, t-butyloxy-carbonyl-Val-Pro-Arg-4-methyl-coumaryl-7-amide. The apparent Km value toward prothrombin was relatively low (2.3 microM), suggesting that tryptase contributes to blood coagulation or the process of fibrosis in tissues. The proteolytic products of IgG1 produced by chymase had chemotactic activity for neutrophil leukocytes in vitro and in vivo. These findings indicate the possible functions of these proteases after degranulation.
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PMID:Biological functions of serine proteases in the granules of rat mast cells. 354 4

Levels of histamine, chymase, and tryptase were assessed in preparations of dispersed human TC (tryptase+, chymase+) mast cells obtained from foreskin and of dispersed human T (tryptase+, chymase-) mast cells obtained from lung. Consistent with previous immunohistochemical results, extracts of T mast cells, the predominant mast cell type in lung (93% T and 7% TC mast cells), were deficient in human chymase (less than 0.3 microgram and 0.04 U/10(6) mast cells) but not tryptase (10.8 micrograms and 0.3 U/10(6) mast cells) by corresponding immunologic and enzymatic (suc-L-ala-ala-pro-phe-p-nitroanilide in the presence of aprotinin and tosyl-L-gly-pro-lys-p-nitroanilide in the presence of soybean trypsin inhibitor, respectively) assays. The minor presence of chymase activity in lung could be accounted for by the minor presence of lung TC mast cells. Extracts of TC mast cells, the predominant mast cell type (1% T and 99% TC mast cells) in foreskin, contained both proteases. However, TC mast cells from adult foreskin contained eightfold to 10-fold higher levels of chymase (4.5 micrograms and 1.01 U/10(6) mast cells) and twofold to threefold higher levels of tryptase (11.5 micrograms and 0.27 U/10(6) mast cells) than did TC mast cells from newborn foreskin (less than 0.6 microgram and 0.09 U of chymase and 35 micrograms and 0.62 U of tryptase/10(6) mast cells). In contrast, histamine levels were not significantly different in adult foreskin TC (1.9 microgram/10(6) mast cells), newborn foreskin TC (1.6 microgram/10(6) mast cells), and adult lung T (1.5 microgram/10(6) mast cells) mast cells. The relative ratio of each mediator in newborn foreskin mast cells to that in adult foreskin mast cells is highest for histamine, followed by tryptase and then chymase. Tryptase from TC and T mast cells had identical subunit compositions by Western blot analysis and similar apparent specific activities. This study extends the previously reported immunohistochemical distinction between human T and TC mast cells in tissue sections by direct quantitation of chymase and tryptase in dispersed preparations of T and TC mast cells.
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PMID:Quantitation of histamine, tryptase, and chymase in dispersed human T and TC mast cells. 354 3

The activity of chymase was markedly inhibited by phosphoglycerides such as phosphatidic acid, phosphatidylserine, and phosphatidylinositol, but was not affected by acylglycerides, phosphoglyceroserine, serine, inositol, or glycerol. These results suggest that both the nonpolar hydrophobic hydrocarbon tails and the polar hydrophilic head are essential for the inhibitory effects of phosphoglycerides. Binding of a primary amine to an anionic polar head of phosphatidic acid, such as in phosphatidylserine and phosphatidylethanolamine, slightly decreased the inhibitory effect of phosphatidic acid and, conversely, binding of a strong cation to the head, such as in phosphatidylcholine, resulted in its activation of chymase. Phosphatidic acid containing an unsaturated fatty acid, such as dioleoyl phosphatidic acid, caused the same extent of inhibition as natural phosphatidic acid from bovine brain, but was 20 times more inhibitory than phosphatidic acid containing a saturated fatty acid, such as distearoyl phosphatidic acid. The inhibition by phosphatidylserine was noncompetitive and pseudoirreversible, and the Ki value was 0.54 microM. The inhibition of chymase by phosphatidylserine was pH dependent, being strong at pH 8.5 to 9.5 but weak below pH 7.5. Phosphatidylserine specifically inhibited chymase and elastase; it did not inhibit the other chymotrypsin-type serine endopeptidases tested, trypsin, papain, collagenase, carboxypeptidase A, or cathepsin D.
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PMID:Inhibition of chymase activity by phosphoglycerides. 388 53

The time-dependent inactivation of several serine proteases including human leukocyte elastase, cathepsin G, rat mast cell proteases I and II, and human skin chymase by a number of 3-alkoxy-4-chloroisocoumarins, 3-alkoxy-4-chloro-7-nitroisocoumarins, and 3-alkoxy-7-amino-4-chloroisocoumarins at pH 7.5 and the inactivation of several trypsin-like enzymes including human thrombin and factor XIIa by 7-amino-4-chloro-3-ethoxyisocoumarin and 4-chloro-3-ethoxyisocoumarin are reported. The 3-alkoxy substituent of the isocoumarin is likely interacting with the S1 subsite of the enzyme since the most reactive inhibitor for a particular enzyme had a 3-substituent complementary to the enzyme's primary substrate specificity site (S1). Inactivation of several enzymes including human leukocyte elastase by the 3-alkoxy-7-amino-4-chlorisocoumarins is irreversible, and less than 3% activity is regained upon extensive dialysis of the inactivated enzyme. Addition of hydroxylamine to enzymes inactivated by the 3-alkoxy-7-amino-4-chloroisocoumarins results in a slow (t1/2 greater than 6.7 h) and incomplete (32-57%) regain in enzymatic activity at pH 7.5. Inactivation by the 3-alkoxy-4-chloroisocoumarins and 3-alkoxy-4-chloro-7-nitroisocoumarins on the other hand is transient, and full enzyme activity is regained rapidly either upon standing, after dialysis, or upon the addition of buffered hydroxylamine. The rate of inactivation by the substituted isocoumarins is decreased when substrates or reversible inhibitors are present in the incubation mixture, which indicates active site involvement. The inactivation rates are dependent upon the pH of the reaction mixture, the isocoumarin ring system is opened concurrently with inactivation, and the reaction of 3-alkoxy-7-amino-4-chloroisocoumarins with porcine pancreatic elastase is shown to be stoichiometric. The results are consistent with a scheme where 3-alkoxy-7-amino-4-chloroisocoumarins react with the active site serine of a serine protease to give an acyl enzyme in which a reactive quinone imine methide can be released. Irreversible inactivation could then occur upon alkylation of an active site nucleophile (probably histidine-57) by the acyl quinone imine methide. The finding that hydroxylamine slowly catalyzes partial reactivation indicates that several inactivated enzyme species may exist. The 3-alkoxy-substituted 4-chloroisocoumarins and 4-chloro-7-nitroisocoumarins are simple acylating agents and do not give stable inactivated enzyme structures.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Reaction of serine proteases with substituted 3-alkoxy-4-chloroisocoumarins and 3-alkoxy-7-amino-4-chloroisocoumarins: new reactive mechanism-based inhibitors. 391 97

The unique finding of normal proalbumin in human plasma provides an insight into the mechanism of propeptide cleavage. Proalbumin, present as 1-5% of the total albumin, was found in a boy whose prime problem was the presence of a mutant proteinase inhibitor, alpha 1-antitrypsin Pittsburgh (358 Met----Arg) [2]. The inferred structure of human proalbumin was confirmed as Arg-Gly-Val-Phe-Arg-Arg-Alb. On incubation with various enzymes (trypsin, tryptase, thrombin, chymotrypsin, chymase and cathepsin B), only trypsin was capable of converting proalbumin to albumin. There was no conversion when proalbumin was incubated with whole blood, plasma or serum. However, intravenous injection of proalbumin into a rat resulted in complete conversion to albumin, the half-life of this process being 6 h. We conclude that propeptide cleavage is dependent on a serine proteinase which is inhibited intracellularly, by the mutant inhibitor, and that all the albumin in the boy was secreted as proalbumin, but was subjected to a separate cleavage process after export from the hepatocyte.
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PMID:Circulating proalbumin associated with a variant proteinase inhibitor. 633 53

The activity of chymase was markedly inhibited by fatty acids with carbon chain lengths of 14-22 at doses greater than 0.02 microM, irrespective of the number of double bonds. Cis acids with a carbon chain length of 18, such as stearic acid, oleic acid, linoleic acid, and linolenic acid were potent inhibitors, whereas the trans isomer of oleic acid, elaidic acid, showed less inhibitory activity. The extent of inhibition by oleyl alcohol was almost the same as that by oleic acid, suggesting that the acid moiety itself was not necessary for the inhibition; but a fatty acid with a terminal functional amide, oleamide, showed little inhibitory activity. The inhibition was noncompetitive and was reversible, and the Ki value of oleic acid was 2.7 microM. Stearic acid and oleic acid inhibited all chymotrypsin-type serine endopeptidases tested. The ID50 values of these fatty acids for atypical mast cell protease were higher than those for the other chymotrypsin-type serine endopeptidases tested. Other proteases, such as papain, trypsin, collagenase, and carboxypeptidase A, except cathespin D, were not affected by stearic or oleic acid.
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PMID:Inhibition of chymase activity by long chain fatty acids. 642 74


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