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: UNIPROT:P15088 (mast cell)
14,925 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Mediator release from mast cells is an initial step in the immediate-type hypersensitivity. Thus, the interaction of neutral proteases released from mast cells with plasma kallikrein-kinin system was investigated. Two proteases, chymotrypsin-like (CHY) and trypsin-like (TRY) proteases, were activated in purified rat mast cells after degranulation with compound 48/80. Three fourths of the CHY activity remained in the cell residue, and the activity was inhibited by chymostatin, whereas most of the TRY activity was released in the medium and was inhibited by leupeptin. The incubation of rat or human plasma with degranulated mast cell (DMC) suspension did not cause the activation of plasma prekallikrein, but did cause a loss in the activity of coagulation factor XII, as ascertained by the lack of activation of prekallikrein in either the DMC-treated plasma by glass powder or in the incubation of DMC-treated human plasma with factor XII deficient plasma activated by kaolin. The prekallikrein and high-molecular-weight kininogen levels were sufficient for activation of factor XII.
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PMID:Loss of the activity of human coagulation factor XII by a chymotrypsin-like protease activated in rat mast cells during degranulation with compound 48/80. 330 14

A proteinase was purified by cation exchange and affinity chromatography from the small intestines of mice infected with Trichinella spiralis. The enzyme was highly soluble and was chymotrypsin-like in its substrate specificities and susceptibility to inhibitors. It had a MW of 26,000, as determined by SDS-PAGE electrophoresis. Antibodies raised against the proteinase were affinity purified and their specificity confirmed by Western blot analysis. When used to localize the enzyme immunohistochemically, they reacted with granules of mast cells in the epithelium and lamina propria of the parasitized small intestine. The antibodies also bound to mast cell granules in a number of other sites, including tracheal epithelium, gastric mucosa, skin and tongue. Affinity-purified antibodies raised against rat mast cell proteinase II (RMCPII) cross-reacted with the mouse mast cell proteinase on Western blots.
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PMID:Characterization and mast cell origin of a chymotrypsin-like proteinase isolated from intestines of mice infected with Trichinella spiralis. 332 34

We have used a high performance liquid chromatography assay, which detects chymotryptic cleavage of the phe8-his9 bond of angiotensin I to yield angiotensin II, in order to examine human lung mast cells for the presence of chymotryptic activity. Mast cells, purified from human lung by enzymatic dispersion, countercurrent elutriation, and Percoll gradient centrifugation, were lysed or challenged with goat anti-human IgE. In multiple experiments angiotensin II-converting activity was detected in lysates of 10-99% pure mast cell preparations. Regression analysis of net percent release values of histamine and the angiotensin I-converting activity from dose-response experiments demonstrated a correlation between the two parameters, indicating that the chymotrypsin-like enzyme is a constituent of the mast cell secretory granule. The chymotryptic activity was completely inhibited by 10(-3) M phenylmethylsulfonylfluoride but not by 10(-3) M Captopril, and the pH optimum of activity was 7.5-9.5. Gel filtration of released material separated the activity from tryptase and demonstrated an approximate molecular weight of 30-35,000. The mast cell enzyme, like a human skin chymotrypsin-like proteinase, can be distinguished from leukocyte cathepsin G by lack of susceptibility to inhibition by bovine pancreatic trypsin inhibitor. Thus, an enzyme with limited chymotryptic specificity is present in human lung mast cells. The Michaelis constant of the enzyme for angiotensin I of 6.0 X 10(-5) M is similar to that of endothelial cell angiotensin-converting enzyme and is consistent with a reaction of physiologic importance.
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PMID:A human lung mast cell chymotrypsin-like enzyme. Identification and partial characterization. 351 Oct 89

The secretory granules of rat serosal mast cells are able efficiently to degrade the apolipoprotein B component of low density lipoproteins (LDL) Kokkonen, J. O., and Kovanen, P. T. (1985) J. Biol. Chem. 260, 14756-14763). The granules are known to contain two neutral proteases with complementary specificities: a chymotrypsin-like endopeptidase called chymase, and an exopeptidase, the granule carboxypeptidase A. The role of this enzyme pair in the proteolytic degradation of LDL was studied with the aid of specific enzyme inhibitors. Incubation of LDL with intact granules (both enzymes active) led to the formation of numerous low molecular weight peptides and the liberation of free amino acids, most of which (95%) were aromatic (Phe, Tyr, Trp) or branched-chain aliphatic (Leu, Ile, Val). Selective inhibition of granule carboxypeptidase A (leaving chymase active) blocked the liberation of free amino acids, but left the formation of peptides uninhibited. On the other hand, selective inhibition of granule chymase (leaving carboxypeptidase A active) totally abolished the proteolytic degradation of LDL. The results are consistent with a model according to which the proteolytic degradation of LDL by mast cell granules results from coordinated action of the two granule-bound enzymes, whereby the chymase first cleaves peptides from the apolipoprotein B of LDL, and thereafter the carboxypeptidase A cleaves amino acids from the peptides formed.
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PMID:Low density lipoprotein degradation by secretory granules of rat mast cells. Sequential degradation of apolipoprotein B by granule chymase and carboxypeptidase A. 353 21

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

The extended substrate binding sites of several chymotrypsin-like serine proteases, including rat mast cell proteases I and II (RMCP I and II, respectively) and human and dog skin chymases, have been investigated by using peptide 4-nitroanilide substrates. In general, these enzymes preferred a P1 Phe residue and hydrophobic amino acid residues in P2 and P3. A P2 Pro residue was also found to be quite acceptable. The S4 subsites of these enzymes are less restrictive than the other subsites investigated. The substrate specificity of these enzymes was also investigated by using substrates which contain model desmosine residues and peptides with amino acid sequences of the physiologically important substrates angiotensin I and angiotensinogen and alpha 1-antichymotrypsin, the major plasma inhibitor for chymotrypsin-like enzymes. These substrates were less reactive than the most reactive tripeptide reported here, Suc-Val-Pro-Phe-NA. The thiobenzyl ester Suc-Val-Pro-Phe-SBzl was found to be an extremely reactive substrate for the enzymes tested and was 6-171-fold more reactive than the 4-nitroanilide substrate. The four chymotrypsin-like enzymes were inhibited by chymostatin and N-substituted saccharin derivatives which had KI values in the micromolar range. In addition, several potent peptide chloromethyl ketone and substituted benzenesulfonyl fluoride irreversible inhibitors for these enzymes were discovered. The most potent sulfonyl fluoride inhibitor for RMCP I, RMCP II, and human skin chymase, 2-(Z-NHCH2CONH)C6H4SO2F, had kobsd/[I] values of 2500, 270, and 1800 M-1 s-1, respectively. The substrates and inhibitors reported here should be extremely useful in elucidating the physiological roles of these proteases.
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PMID:Mammalian chymotrypsin-like enzymes. Comparative reactivities of rat mast cell proteases, human and dog skin chymases, and human cathepsin G with peptide 4-nitroanilide substrates and with peptide chloromethyl ketone and sulfonyl fluoride inhibitors. 389 42

Up to 43% of the viable bacteria from the rumen of cows fed grass and concentrates grew on a medium containing casein as the main substrate. Proteolytic counts for a cow fed on straw and concentrates or for a hay-fed cow were lower than counts for cows fed grass and concentrates, both in absolute terms and in relation to the total anaerobic count. In crude enzyme preparations derived from the rumen protozoa, amino acid arylamidase (leucine aminopeptidase)-like activity was the main proteolytic activity observed. In enzyme preparations extracted from the rumen bacteria in the presence of Triton X-100, trypsin-like activity was predominant. Amino acid arylamidase- and metal-chelating proteinase-like activity together with lower activities of carboxypeptidase A and B and a very low chymotrypsin-like activity were found as well. Studies with enzyme inhibitors showed that the bacterial trypsin-like activity was largely of the cysteine-protease type in a hay-fed cow, but in addition comprised serine-protease activity in a cow fed grass and concentrates. Total proteolytic activity of the enzymes in the bacterial fraction and the spectrum of proteolytic enzymes were found to vary with the ration.
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PMID:Characterization of microbial proteolytic enzymes in the rumen. 637 Jan 33

The degradation of normal human skin by the human polymorphonuclear leukocyte proteinases cathepsin G and elastase, and by a human skin chymotrypsin-like proteinase that appears to be a mast cell constituent, was examined. Enzymes were incubated with fresh, split-thickness skin for up to 8 h; the tissue was examined ultrastructurally and immunohistochemically using antibodies to known basement membrane constituents. In all cases, the primary damage observed was at the epidermal-dermal junction. Elastase degraded the lamina densa leaving scattered and disorganized anchoring fibrils, dermal microfibril bundles, and normal-appearing collagen fibers. Immunohistochemically, type IV collagen, laminin, KF1 antigen, and EBA antigen were absent. The bullous pemphigoid antigen was present and localized on the basal cells. Epidermal-dermal separation produced by the chymotrypsin-like proteinases, cathepsin G, and the human skin proteinase, was confined to the lamina lucida. The lamina densa and sub-lamina densa fibrillar network remained intact. The human skin chymotrypsin-like proteinase produced extensive epidermal-dermal separation, while cathepsin G, at comparable concentrations, produced only focal separations. Immunohistochemically, all antigens were present after incubation with enzyme. The bullous pemphigoid antigen, however, was found on the epidermal side of the split, while laminin was found on the dermal side. These results show that the epidermal-dermal junction is highly susceptible to neutral serine proteinases located in mast cells and polymorphonuclear leukocytes. Although all the proteinases produce epidermal-dermal separation, the patterns and extent of degradation are different. The distinctive patterns of degradation may provide a clue to the involvement of these proteinases in skin diseases.
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PMID:Degradation of the epidermal-dermal junction by proteolytic enzymes from human skin and human polymorphonuclear leukocytes. 638 17

Carboxypeptidase A (EC 3.4.17.1) has been purified 44 000-fold in 33% yield from rat skeletal muscle by a four-step procedure. Purification in the presence of dichlorovinyl dimethyl phosphate conveniently inactivates an accompanying chymotrypsin-like enzyme and other serine protease(s) to ensure isolation of pure carboxypeptidase A free of polypeptide contaminants. The enzyme preparation consists of two components with molecular weights of approximately 39 300 and 37 800. The rat muscle carboxypeptidase is very similar to bovine pancreatic carboxypeptidase A in terms of (1) substrate specificity, (2) kinetics and molecular activity, (3) influence of metal ions on catalysis, (4) interaction with inhibitors, (5) effects of ionic strength on activity, and (6) stability and activity as functions of pH. Both muscle and pancreatic carboxypeptidases exhibit enhanced esterolytic activity when assayed in the presence of a variety of indoles and imidazoles or after incubation at relatively high concentrations of MnSO4. The muscle enzyme is substantially less stable than its pancreatic homologue, and in impure preparations is very much less soluble. The latter property is attributable to a binding substance present in such preparations which renders muscle but not pancreatic carboxypeptidase A insoluble until ionic strength is increased to values near 2 M.
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PMID:Purification and characterization of carboxypeptidase A from rat skeletal muscle. 701 67


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