Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.1 (chymotrypsin)
 10,938 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Parathyroid hormone (PTH) -degrading activity was studied using osteoblast-like UMR-106 cells. PTH-degrading activity was assessed by the amount of PTH fragments produced in the medium after exposure of intact human PTH-(1-84) to UMR-106 cells. PTH immunoreactivity recovered in trichloroacetic acid-soluble products of the medium and in fractions eluted from reverse-phase high-performance liquid chromatography (HPLC) was measured by radioimmunoassay using an antibody specific for the mid-region and C-terminus of PTH. In this study, intact UMR-106 cells but not extracellular enzymes cleaved human PTH(1-84) into fragments which were released into the medium (in a time- and temperature-dependent fashion). HPLC analysis of the PTH fragments depicted three immunoreactive peaks (peaks 1, 2 and 3) besides intact PTH, indicating a limited PTH-hydrolyzing activity of the cells. Furthermore, a 1000-fold molar excess of either hPTH-(3-34) or [Nle8,Nle18,Tyr34]hPTH-(3-34)amide inhibited PTH-degrading activity by 63% and 80% of control, respectively, whereas neither calcitonin, vasopressin nor growth hormone suppressed it. Additionally, HPLC analysis of the samples treated with [Nle8,Nle18,Tyr34]hPTH-(3-34)amide showed a reduction of the three peaks, suggesting an involvement of PTH receptor in the production of PTH fragments. This PTH-degrading activity was strongly inhibited by phenylmethylsulfonyl fluoride and chymostatin, but not by soybean trypsin inhibitor, elastatinal or inhibitors of cysteine, aspartic or metalloproteinases, indicating that it is due to a seryl chymotrypsin-like endopeptidase. Chymotrypsin-like activity seems to be solely responsible for PTH-degrading activity in intact UMR-106 cells, since all three PTH fragments were predominantly suppressed in the presence of chymostatin. Further analysis of chymotrypsin-digested products of hPTH-(1-84) eluted from HPLC exhibited five fragments detected by ultraviolet absorbance at 210 nm, three of which were measurable by PTH radioimmunoassay, each corresponding to the three PTH fragments produced by UMR-106 cells. To explore the cleavage sites of PTH further, amino acid analysis of chymotrypsin-cleaved products was performed. The results strongly support the view that the chymotrypsin-like enzyme in UMR-106 cells cleaved the hormone between residues 23-24 and 34-35, to produce, at least, hPTH-(24-84) and -(35-84). Our present study indicates that a chymotrypsin-like endopeptidase is solely responsible for limited hydrolysis of PTH by intact UMR-106 cells.
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PMID:Parathyroid hormone degradation by chymotrypsin-like endopeptidase in the clonal osteogenic UMR-106 cell. 291 1

Monoclonal antibody 1-15 (Ab 1-15), is a murine anti-human neutrophil (PMN) IgG1 that inhibits PMN effector responses to N-formyl-met-leu-phe (FMLP) and phorbol myristate acetate. In this study, the effects of Ab 1-15 on PMN membrane-related functions were characterized: Ab 1-15 inhibited PMN superoxide (O-2) response to FMLP by 60% (P less than 0.005) without effect on the onset or duration of O-2 production. This inhibition of O-2 response was associated with a significant inhibition of PMN chymotrypsin-like, but not trypsin-like, protease activity. Cell fractionation studies indicated the presence of an Ab 1-15 inhibitable, chymotryptic neutral protease activity in PMN membranes. In studies of Ab 1-15 effects on membrane-related second messenger pathways, Ab 1-15 augmented both FMLP- and isoproterenol-induced intracellular cAMP accumulation, whereas alpha-chymotrypsin decreased PMN cAMP response to these stimuli. Our data suggest that the function-inhibiting, anti-PMN monoclonal Ab 1-15 defines a PMN chymotryptic enzyme on the membrane surface that is involved in regulation of two membrane-related functions, O-2 generation and cAMP generation.
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PMID:Monoclonal antibody characterization of a chymotrypsin-like molecule on neutrophil membrane associated with cellular activation. 303 Nov 32

Recent data on the nature of trypsin-, chymotrypsin-like proteinases of fish are generalized. Localization and secretion of these enzymes in pyloric appendages of fish are considered in detail. Trypsin and chymotrypsin are in the state of proenzymes and transform into the active form by means of their own proteolytic factors. It is observed that the classical methods for isolation of individual chymotrypsin and trypsin cannot be used in the case of fish, since the fish enzymes are stable in the neutral and low-alkaline media and unstable in the acid medium. This is, first of all, accounted for by differences in the physicochemical characteristics of the test enzymes. New data on the biospecific chromatography of serine proteinases of lower invertebrates are presented. Biospecific sorbents used for isolating enzymes from mammals are not always convenient for purification of fish serine proteinases. This evidences for considerable differences in their active sites and, probably, in their binding sites, whose nature is responsible for the specificity and is important for the selective chromatography of enzymes.
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PMID:[Trypsin-, chymotrypsin-like proteinases in fishes]. 305 78

Cathepsin-D has been previously reported to cleave intact PTH into PTH-(1-34) and -(35-84) in membranous fractions of rat and bovine kidney. Whether PTH degradation occurs by intact kidney cells, however, has not been examined in detail. We have, therefore, examined this possibility using an opossum kidney (OK) cell line which possesses the characteristics of proximal renal tubules and responds to PTH. PTH radioimmunoreactivity recovered in trichloroacetic acid-soluble products and in fractions eluted from reverse phase HPLC was measured using an antibody directed to the midregion and C-terminus of PTH. In this study, intact OK cells, but not extracellular enzymes, cleaved human (h) PTH-(1-84) into three discrete fragments which were released into the medium in a time- and temperature-dependent fashion. Half-maximal velocity of PTH-degrading activity (PTHDA) was observed at 9 nM hPTH-(1-84). A 1000-fold molar excess of PTH antagonists [hPTH-(3-34) and [Tyr34]hPTH-(7-34)amide] markedly inhibited PTHDA, whereas ACTH, glucagon, or big gastrin did not suppress it, suggesting an involvement of the PTH receptor in PTHDA. This PTHDA was strongly inhibited by phenylmethylsulfonylfluoride and chymostatin, but not by trypsin inhibitor, elastatinal, or inhibitors of aspartic, cysteine, or metalloproteinases, suggesting that it is due to a seryl chymotrypsin-like endopeptidase. Analysis of chymotrypsin-digested products of hPTH-(1-84) eluted from HPLC exhibited five fragments detected by UV absorbance (210 nm), three of which were measurable by PTH RIA, and each corresponded to the three PTH fragments produced by OK cells. All three fragments were predominantly suppressed in the presence of chymostatin, suggesting that chymotrypsin-like activity is solely responsible for PTHDA in intact OK cells. To further explore the cleavage sites of PTH by chymotrypsin, amino acid analysis of chymotrypsin-cleaved products was performed. The results strongly support the conclusion that a chymotrypsin-like enzyme in OK cells cleaved the hormone between residues 23-24, and 34-35 to produce, at least, hPTH-(24-84) and -(35-84). Lysosomal blockers (chloroquine, ammonium chloride, or monensin) did not affect this PTHDA. Our present study indicates that chymotrypsin-like endopeptidase, but not other endopeptidase or lysosomal enzymes, is responsible for the limited hydrolysis of PTH by intact OK cells.
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PMID:Parathyroid hormone degradation by chymotrypsin-like endopeptidase in the opossum kidney cell. 305 60

The amino acid sequence has been determined for rat mast cell protease I (RMCP I), a product of peritoneal mast cells. The active enzyme contains 227 residues, including three corresponding to the catalytic triad characteristic of serine protease (His-57, Asp-102, and Ser-195 in chymotrypsin). A computer search for homology indicates 73% and 33% sequence identity of RMCP I with rat mast cell protease II from mucosal mast cells and bovine chymotrypsin A, respectively. When the structure of RMCP I is compared to those of cathepsin G from human neutrophils and two proteases expressed in activated lymphocytes, 48-49% of the sequences are identical in each case. RMCP I has six half-cystine residues at the same positions as in RMCP II, cathepsin G, and the two lymphocyte proteases, suggesting disulfide pairs identical with those reported for RMCP II. A disulfide bond near the active site seryl residue and substrate binding site, present in pancreatic and plasma serine proteases, is not found in RMCP I or in the other cellular proteases. These results indicate that RMCP I and other chymotrypsin-like proteases of granulocyte and lymphocyte origin are more closely related to each other than to the pancreatic or plasma serine proteases.
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PMID:Amino acid sequence of rat mast cell protease I (chymase). 312 23

The structure of rat mast cell protease II (RMCP II), a serine protease with chymotrypsin-like primary specificity, has been determined to a nominal resolution of 1.9 A by single isomorphous replacement, molecular replacement, and restrained crystallographic refinement to a final R-factor of 0.191. There are two independent molecules of RMCP II in the asymmetric unit of the crystal. The rms deviation from ideal bond lengths is 0.016 A and from ideal bond angles is 2.7 degrees. The overall structure of RMCP II is extremely similar to that of chymotrypsin, but the largest differences between the two structures are clustered around the active-site region in a manner which suggests that the unusual substrate specificity of RMCP II is due to these changes. Unlike chymotrypsin, RMCP II has a deep cleft around the active site. An insertion of three residues between residues 35 and 41 of chymotrypsin, combined with concerted changes in sequence and a deletion near residue 61, allows residues 35-41 of RMCP II to adopt a conformation not seen in any other serine protease. Additionally, the loss of the disulfide bridge between residues 191 and 220 of chymotrypsin leads to the formation of an additional substrate binding pocket that we propose to interact with the P3 side chain of bound substrate. RMCP II is a member of a homologous subclass of serine proteases that are expressed by mast cells, neutrophils, lymphocytes, and cytotoxic T-cells. Thus, the structure of RMCP II forms a basis for an explanation of the unusual properties of other members of this class.
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PMID:The structure of rat mast cell protease II at 1.9-A resolution. 323 98

A chymotrypsin-like enzyme (CTLE) was isolated from the digestive tract of the African migratory locust Locusta migratoria migratorioides by ion-exchange chromatography on diethylaminoethyl (DEAE) cellulose followed by affinity chromatography on phenylbutylamine (PBA) Sepharose. The purity and homogeneity of CTLE have been shown by SDS-PAGE and on cellulose acetate strips. The enzyme has a molecular weight of 24,000, determined by SDS-PAGE and on a Sephadex G-75 calibrated column. It has an isoelectric point of 10.1 and contains 0-1 half cystine residues. Sequence analysis of the first 20 N-terminal amino acids has shown 25% homology with bovine chymotrypsin and 40% homology with Vespa crabo and Vespa orientalis chymotrypsins and with Hypoderma lineatum trypsin. The optimal pH for enzyme activity and stability was in the range of 8.5-9.0. The Km and kcat values, determined on substrates for proteolytic, esterolytic and amidolytic activity, similar to those for bovine chymotrypsin. CTLE was inactivated by PMSF and TPCK indicating the involvement of serine and histidine in its active site. The enzyme was fully inhibited by the proteinaceous, double-headed, chymotrypsin-trypsin inhibitors BBI from soybeans and CI from chickpeas, by chicken ovomucoid (COM) and turkey ovomucoid (TOM), as well as by the Kunitz soybean trypsin inhibitor (STI) which hardly inhibits bovine chymotrypsin. Inhibition studies of CTLE with amino acid and peptide-chloromethylketones point towards the existence of an extended binding site.
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PMID:Purification and characterization of Locusta migratoria chymotrypsin. 324 83

A multicatalytic endopeptidase (ME) with three distinct activities, chymotrypsin-like, cucumisin-like, and trypsin-like, occurred in all rat tissues examined with highest activities in kidney, testes, liver, and spleen; they were assayed with benzyloxycarbonyl-Gly-Gly-Leu-p-nitroanilide (Z-Gly-Gly-Leu-pNA), benzyloxycarbonyl-Leu-Leu-Glu-2-naphthylamide (Z-Leu-Leu-Glu-2NA), and benzyloxycarbonyl-Gly-Gly-Arg-2-naphthylamide (Z-Gly-Gly-Arg-2NA), respectively. All three activities were recovered from a single protein band on a polyacrylamide gel after electrophoresis of purified human kidney ME. The native enzyme had a Mr of 650,000, and it consisted of about 5,135 amino acid residues. After denaturation and electrophoresis on sodium dodecyl sulfate (SDS)-polyacrylamide gels kidney ME dissociated into several low Mr components ranging from 23,000 to 33,000. Kidney ME had a pH optimum of 7.6-8.1 with Z-Gly-Gly-Leu-pNA, 7.3 with Z-Leu-Leu-Glu-2NA, and 9.8 with Z-Gly-Gly-Arg-2NA. SDS enhanced chymotrypsin- and cucumisin-like activities by two to three times whereas trypsin-like activity was not enhanced. The specificity constant (kappa cat/Km) of human kidney ME for Z-Gly-Gly-Leu-pNA was 6.7 X 10(3) M-1 S-1; Z-Gly-Gly-Leu-2NA was not hydrolyzed. The specificity constant for Z-Leu-Leu-Glu-2NA was similar to, and for Z-Gly-Gly-Arg-2NA was one half of that for Z-Gly-Gly-Leu-pNA. ME cleaves only the Phe5-Ser6 bond of bradykinin (BK); however, all three ME activities were inhibited by BK. Strong inhibition of ME by albumin suggests that ME is involved in cleavage of larger polypeptides. Antipain and leupeptin almost completely inactivated the trypsin-like activity whereas they had no significant effect on the other two activities. ME is not a metal-loenzyme nor is the serine residue essential for its activities; however, thiol groups are involved. Na+ and K+ inhibited all ME activities. Trypsin-like activity was more sensitive to divalent cations than the other two.
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PMID:A multicatalytic high-molecular-weight neutral endopeptidase from human kidney. 331 Sep 3

The catalytic properties of a sheep mast cell proteinase (SMCP), isolated from abomasal mucosal mast cells, were investigated. The enzyme was shown to have chymotrypsin-like esterase activity, with no detectable amide activity, using a range of low molecular weight substrates. Maximal activity, against Benzyloxycarbonyl-L-tyrosine-4-nitrophenol ester, was determined to be in the range pH 7.6-8.0. Inhibitor studies showed that, unlike chymotrypsin, a serine proteinase, SMCP was found to be susceptible to the action of thiol blocking agents and chelating agents, but to be unaffected by diisopropylphosphofluoridate, a serine proteinase inhibitor.
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PMID:The catalytic properties of a proteinase isolated from sheep abomasal mucosal mast cells. 353 58

The substrate specificity of rat mast cell protease I (RMCP I), a chymotrypsin-like serine protease localized in the secretory granules of mast cells, was compared to that of bovine alpha-chymotrypsin by using several peptide and protein substrates of known amino acid sequences. Although the overall specificities of the two proteases appeared similar, subtle but significant differences were observed. RMCP I was more prone than chymotrypsin to hydrolyze peptide bonds consisting of Leu-Xaa or two hydrophobic residues--e.g., Phe-Phe. Additionally, the hydrolysis of angiotensin I catalyzed by chymotrypsin, but not by RMCP I, resulted in the generation of angiotensin II as an intermediate product. In contrast to the solubilized enzyme, the RMCP I activity within the insoluble granules was completely stable for at least 2 months in suitable buffers at pH 8.0 or pH 7.2, at 4 degrees C. Carboxypeptidase A activity associated with isolated mast cell granules was completely inhibited by 10 mM o-phenanthroline. Polypeptides smaller than apomyoglobin (17,199 Da) were rapidly hydrolyzed by granule-bound RMCP I, whereas apomyoglobin and other larger proteins were not hydrolyzed. In contrast, the free protease readily hydrolyzed the larger proteins. Neither normal rat serum nor alpha 1-antitrypsin, both of which inhibited the activity of free RMCP I, was effective in inhibiting granule-associated RMCP I. The results indicate that granule-bound RMCP I is not released into solution from isolated secretory granules under physiological conditions of ionic strength and pH and that the granule structure limits the size of proteins that can be hydrolyzed by the protease.
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PMID:Substrate specificity of the chymotrypsin-like protease in secretory granules isolated from rat mast cells. 354 Sep 62


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