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)

Exogenous addition of purified chymase, a rat serosal mast cell (RSMC) chymotryptic enzyme, results in RSMC degranulation at 37 degrees, but not at 1 degree. Chymase can cause an active site-dependent inducing event at 1 degree such that RSMC degranulation occurs if the cells are later incubated at 37 degrees. RSMC exposed to chymase or other stimuli were surface radiolabelled using 125I and Iodo-Gen, solubilized with 1% Nonidet-40, and the resulting 25,000 g supernatants analysed by SDS-PAGE and autoradiography. A 125I-labelled RSMC membrane protein of approximate 90,000 MW decreased upon exposure to either chymase or alpha-chymotrypsin (alpha-CT) for 5 min at 37 degrees or to chymase for 60 min at 1 degree. Exposure of RSMC to the secretagogues ionophore A23187, compound 48/80, and anti-IgE for 5 min at 37 degrees resulted in beta-hexosaminidase (a secretory granule enzyme) release, but did not cause a detectable change in the 90,000 MW surface-labelled protein. Lima bean trypsin inhibitor, which inhibits both the esterase and RSMC degranulation activities of chymase and alpha-CT, prevented the disappearance of the 125I-labelled 90,000 MW band when added with chymase or alpha-CT. Exposure of RSMC to chymase at 1 degree for 0-10 min, prior to addition of LBTI, led to a progressive disappearance of the 90,000 MW band, which corresponded to the kinetics of priming for subsequent RSMC degranulation at 37 degrees. When RSMC were exposed to trypsin (2.5 micrograms/ml) for 0-120 min at 1 degree, a progressive disappearance of the 90,000 MW band occurred, in association with a loss of sensitivity to subsequent activation by chymase at 37 degrees. The disappearance of the 90,000 MW determinant in association with chymase-mediated priming for degranulation and the inability of chymase to mediate degranulation of trypsin-treated RSMC, which lack this membrane protein, suggests that it is involved in chymase-mediated RSMC degranulation.
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PMID:Cleavage of a rat serosal mast cell membrane component during degranulation mediated by chymase, a secretory granule protease. 231 65

The expression of the antigenic determinant identified by the B54.2 rat monoclonal antibody on four populations of mouse mast cells has been quantified, and the epitope-bearing surface antigen and its biosynthesis have been characterized. As assessed by indirect immunofluorescence staining and flow cytometric analysis, B54.2 antibody bound to serosal mast cells (S-MC), bone marrow culture-derived mast cells (BM-MC), fetal liver culture-derived mast cells (FTL-MC), and Abelson murine leukemia virus-transformed FTL-MC (ABFTL-MC). However, the intensity of cell surface fluorescence exhibited by ABFTL-MC was approximately eightfold less per cell compared with nontransformed, culture-derived mast cells. Immunoprecipitation of B54.2 antibody-binding molecules from each population of mast cells labeled intrinsically with [35S]methionine and analysis by SDS-PAGE demonstrated that the B54.2 epitope was expressed in each case on two noncovalently associated proteins of 110,000 Mr and approximately 130,000 Mr, but that the percentage of radiolabel in the latter species was approximately threefold less in ABFTL-MC than in BM-MC. As assessed by pulse-chase analysis with [35S]methionine, the 110,000 Mr protein was a precursor of the 130,000 Mr molecule ("B54.2 antigen") synthesized by BM-MC. Labeling of BM-MC with [35S]methionine in the presence of tunicamycin followed by immunoprecipitation and SDS-PAGE of B54.2 antibody-binding material revealed a single species of 93,000 Mr, indicating that the native molecules contained N-linked carbohydrate. Endoglycosidase H treatment of the glycoproteins precipitated by B54.2 antibody from BM-MC reduced the Mr of the 110,000-Mr molecule to 93,000 Mr without an appreciable change in the 130,000-Mr species. These data indicate that the 110,000-Mr precursor form is a "high mannose" type glycoprotein and the 130,000-Mr membrane surface B54.2 antigen is a "complex" type glycoprotein, and that the epitope recognized by the B54.2 antibody on the surface of the mouse mast cell populations is located on the 93,000-Mr peptide core.
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PMID:Biochemical characterization of a mast cell plasma membrane antigen shared by mouse serosal, culture-derived, and virally transformed mast cells. 243 44

The functional role of mast cells in rheumatoid synovium was investigated by assessing the ability of mast cell tryptase to activate latent collagenase derived from rheumatoid synoviocytes. Tryptase, a mast cell neutral protease, was demonstrated in situ to reside in rheumatoid synovial mast cells, by an immunoperoxidase technique using a mouse mAb against tryptase, and in vitro to be released by dispersed synovial mast cells after both immunologic and nonimmunologic challenge. Each rheumatoid synovial mast cell contains an average of 6.2 pg of immunoreactive tryptase and the percent release values of this protease correlated with those of histamine (r = 0.58, p less than 0.01). The ability of purified tryptase to promote collagenolysis was demonstrated in a dose-dependent fashion using latent collagenase derived from rheumatoid synovium, synovial fluid, IL-1-stimulated cultured synoviocytes, and partially purified latent collagenase derived from conditioned media, with between 10 and 92% of the collagen substrate degraded. [3H] Collagen, treated with tryptase-activated latent collagenase, was subjected to electrophoresis on SDS polyacrylamide gels and autoradiography showed the collagen degradation pattern (A, B) characteristically produced by collagenase. Mast cell lysates also activated synovial latent collagenase yielding 24% digestion of collagen substrate. This activator in mast cell lysates could be inhibited by diisopropylflurophosphate or by immunoadsorption of tryptase. Thus, mast cells may activate metalloproteinases and play a role in the catabolism of collagen that occurs in rheumatoid synovium.
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PMID:Activation of latent rheumatoid synovial collagenase by human mast cell tryptase. 245 61

Derivatives of the antiallergic drug cromolyn [disodium 5,5'-[(2-hydroxy-1,3-propanediyl)-bis(oxy)]bis [4-oxo-(4H-1-benzopyran)-2- carboxylate]], which can be conjugated covalently at the propane 2-position to macromolecules and to insoluble matrices, were synthesized. Conjugates of these derivatives with macromolecules were examined for their binding to cells of the rat basophilic leukemia line RBL-2H3, which is widely employed as a model for immunologically induced mast cell degranulation. Only those drug-protein conjugates in which the cromolyn analogue with an amino group at the propane 2-carbon instead of the hydroxyl was linked to the carrier by glutaraldehyde were found to exhibit specific and saturable binding to these cells. Analysis of the binding data for these conjugates yielded an apparent binding constant of 3.8 +/- 0.2 X 10(8) M-1 and an apparent number of binding sites for the probe of 4000-8000 per cell. The conjugates found to bind specifically to the cells were also immobilized on agarose matrices and employed in an affinity-based isolation of the membrane component responsible for the observed binding. A single labeled polypeptide was eluted from these columns, onto which either whole cell lysates or solubilized purified plasma membranes of surface-radioiodinated RBL-2H3 cells had been adsorbed. This membrane protein appears on autoradiograms of nonreducing SDS-PAGE as a single broad band of approximately 110,000 daltons (Da) apparent molecular mass. On autoradiograms of reducing gels, the only band detected has an apparent mass of approximately 50,000 Da and appears narrower. Elution of the columns with the drug and disulfide-reducing agents or with the latter alone resulted in significantly higher yields of the 50-kDa polypeptide. Both the intact and reduced proteins bind strongly to immobilized concanavalin A and less so to immobilized wheat germ agglutinin, suggesting that the isolated intact protein is probably a dimer of two glycosylated subunits of similar molecular mass. Treatment of the reduced protein with endoglycosidase F leads to a decrease in its apparent molecular mass by approximately 12 kDa, suggesting that the extent of glycosylation of this polypeptide is approximately 25%. As shown in the following paper, the intact protein constitutes a Ca2+ channel that is activated upon IgE-Fc epsilon receptor aggregation.
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PMID:Isolation and purification of an Fc epsilon receptor activated ion channel from the rat mast cell line RBL-2H3. 246 4

As assessed by immunoprecipitation analyses, expression of the epitope recognized by the rat mAb B23.1 is approximately sevenfold greater on the surface of mouse IL-3-dependent bone marrow culture-derived mast cells (BMMC) than on serosal mast cells (SMC) obtained directly from the peritoneal cavity. Immunoprecipitation of B23.1 antibody-binding molecules from Na[125I] surface-labeled BMMC and SMC followed by sizing on SDS-polyacrylamide gels under reducing conditions demonstrated that the epitope is located on molecules of 49,000 and 47,500 Mr, respectively. An additional immunoprecipitated molecule of 42,000 Mr was detected from BMMC intrinsically radiolabeled with [35S]methionine, and pulse-chase analyses revealed that this species was a biosynthetic precursor of the 49,000 Mr cell surface form of the Ag. Treatment of the immunoprecipitated 42,000 and 49,000 Mr forms with endoglycosidase F reduced the Mr of both to 37,000, as did intrinsic radiolabeling of BMMC in the presence of tunicamycin, indicating that both the 42,000 Mr precursor form and the 49,000 Mr cell surface molecule (gp49) contained N-linked carbohydrate. Activation of [32P]orthophosphate-labeled BMMC by sensitization with mouse monoclonal IgE anti-TNP and challenge with TNP-BSA or by exposure to the calcium ionophore A23187 elicited the rapid phosphorylation of gp49 but not of its precursor forms, as did treatment of the cells with PMA. Elution of phosphorylated and immunoprecipitated gp49 from SDS-polyacrylamide gels followed by partial acid hydrolysis of the protein and phosphoamino acid analysis by high voltage thin-layer electrophoresis on cellulose plates indicated that serine, but not threonine or tyrosine, was phosphorylated upon stimulation of BMMC with IgE/Ag, calcium ionophore, or PMA. Cholera toxin did not elicit phosphorylation of gp49. These data suggest that gp49, a plasma membrane glycoprotein preferentially expressed by mouse BMMC, may be either directly or indirectly phosphorylated via protein kinase C during mast cell activation-secretion.
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PMID:Activation- and phorbol ester-stimulated phosphorylation of a plasma membrane glycoprotein antigen expressed on mouse IL-3-dependent mast cells and serosal mast cells. 246 32

High- (alpha chain) and low-affinity IgE receptors from purified populations of rat intestinal mucosal (IMMC) and peritoneal mast cells (PMC) were characterized by SDS-PAGE. Receptor expression and molecular weight were compared. IMMC yielded 59-kilodalton (kDa) alpha chains of the high-affinity receptors and two forms (58, 50 kDa) of low-affinity receptors, whereas PMC possessed only 51-kDa alpha chains and 56-kDa low-affinity receptors. These differences extend the evidence for functional diversity between mast cell subtypes.
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PMID:IgE receptors from rat intestinal mucosal and peritoneal mast cells show mast cell subtype-specific differences. 252 56

Beta-adrenergic agonists can prevent mediator release from guinea pig pulmonary mast cells. By pharmacologic characterization, this response is mediated through a beta-2 receptor. Structural characterization of this receptor on the lung mast cell, however, has been limited by methods for isolation of this pulmonary cell. In this study, the guinea pig lung mast cell was isolated to greater than 90% purity, and its beta-adrenergic receptor identified by photoaffinity labeling with [125I]iodoazidobenzylpindolol (125IABP) and separation of membrane proteins by SDS-PAGE. We found the guinea pig pulmonary mast cell beta-adrenergic receptor to electrophorese as a heterogeneous protein between 68 and 116 kD. Photoaffinity labeling with 125IABP was protectable by alprenolol and isoproterenol but not by phentolamine and norepinephrine. Using subtype-selective compounds, the pulmonary mast cell receptor was established to be of a beta-2 subtype. This is the first report of the structural identification of a lung mast cell beta-adrenergic receptor and the first report of a beta-adrenergic receptor of approximately 100 kD in mass. This mast cell receptor is considerably larger than the 65 kD beta-adrenergic receptors that have been identified in whole lung and other tissues. Data we have obtained using Northern blot analysis of mast cell RNA suggest a protein message of 45 kD for this beta-adrenergic receptor and a high degree of glycosylation most likely accounts for the large molecular size observed.
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PMID:Photoaffinity labeling of the guinea pig pulmonary mast cell beta-adrenergic receptor. 256 88

The ability of plasma proteinase inhibitors to inactivate human chymase, a chymotrypsin-like proteinase stored within mast cell secretory granules, was investigated. Incubation with plasma resulted in over 80% inhibition of chymase hydrolytic activity for small substrates, suggesting that inhibitors other than alpha 2-macroglobulin were primarily responsible for chymase inactivation. Depletion of specific inhibitors from plasma by immunoadsorption using antisera against individual inhibitors established that alpha 1-antichymotrypsin (alpha 1-AC) and alpha 1-proteinase inhibitor (alpha 1-PI) were responsible for the inactivation. Characterization of the reaction between chymase and each inhibitor demonstrated in both cases the presence of two concurrent reactions proceeding at fixed relative rates. One reaction, which led to inhibitor inactivation, was about 3.5 and 4.0-fold faster than the other, which led to chymase inactivation. This was demonstrated in linear titrations of proteinase activity which exhibited endpoint stoichiometries of 4.5 (alpha 1-AC) and 5.0 (alpha 1-PI) instead of unity, and SDS gels of reaction products which exhibited a banding pattern indicative of both an SDS-stable proteinase-inhibitor complex and two lower Mr inhibitor degradation products which appear to have formed by hydrolysis within the reactive loop of each inhibitor. At inhibitor concentrations approaching those in plasma where inhibitor to chymase concentration ratios were in far excess of 4.5 and 5.0, the rate of chymase inactivation by both serpin inhibitors appeared to follow pseudo-first order kinetics. The "apparent" second order rate constants of inactivation determined from these data were about 3000-fold lower than the rate constants reported for human neutrophil cathepsin G and elastase with alpha 1-AC and alpha 1-PI, respectively. This suggests that chymase would be inhibited about 650-fold more slowly than these proteinases when released into plasma. These studies demonstrate that although chymase is inactivated by serpin inhibitors of plasma, both inhibitors are better substrates for the proteinase than they are inhibitors. This finding along with the slow rates of inactivation indicates that regulation of human chymase activity may not be a primary function of plasma.
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PMID:Reaction of human skin chymotrypsin-like proteinase chymase with plasma proteinase inhibitors. 259 76

The neuronal membrane protein which binds the K+-channel ligands dendrotoxin, mast cell degranulating peptide, and beta-bungarotoxin was purified from rat brain membranes. When analysed on 10% SDS gel electrophoresis, the purified protein contained two peptides: the toxin-binding subunit of apparent Mr 90,000 and another peptide of Mr 38,000. Neuraminidase treatment reduced the Mr of the toxin-binding subunit to 70,000. Glycopeptidase F gave a further reduction to Mr 65,000. In contrast, the peptide of Mr 38,000 showed no change in Mr upon treatment with neuraminidase and/or glycopeptidase F. It is concluded that the toxin-binding subunit of the dendrotoxin-binding protein, a presumptive K+ channel, is a sialated membrane protein with a peptide core of, at most, Mr 65,000.
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PMID:Enzymatic deglycosylation of the dendrotoxin-binding protein. 270 49

A carboxypeptidase activity was recently identified in highly purified human lung mast cells and dispersed mast cells from skin. Using affinity chromatography with potato-tuber carboxypeptidase inhibitor as ligand, mast cell carboxypeptidase was purified to homogeneity from whole skin extracts. The purified enzyme yielded a single staining band of approximately 34,500 D on SDS-PAGE. Carboxypeptidase enzyme content estimated by determination of specific activity, was 0.5, 5, and 16 micrograms/10(6) mast cells from neonatal foreskin, adult facial skin, and adult foreskin, respectively. Human mast cell carboxypeptidase resembled bovine carboxypeptidase A with respect to hydrolysis of synthetic dipeptides and angiotensin I, but was distinguished from carboxypeptidase A in its inability to hydrolyze des-Arg9 bradykinin. The amino acid composition of human mast cell carboxypeptidase was similar to the composition of rat mast cell carboxypeptidase. The amino-terminal amino acid sequence of mast cell carboxypeptidase demonstrated 65% positional identity with human pancreatic carboxypeptidase B, but only 19% with human carboxypeptidase A. Thus, human mast cell carboxypeptidase is a novel member of the protein family of zinc-containing carboxypeptidases, in that it is functionally similar but not identical to bovine carboxypeptidase A, but has structural similarity to bovine and human pancreatic carboxypeptidase B.
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PMID:Human mast cell carboxypeptidase. Purification and characterization. 270 24


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