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)

gp49 is a Mr 49,000 glycoprotein expressed on the surface of mouse bone marrow-derived mast cells, which are progenitors for the major in vivo mast cell subclasses, typified by intestinal mucosal mast cells and serosal mast cells. The amino-terminal amino acid sequence of gp49 was determined after isolation of the solubilized membrane protein by affinity chromatography with the B23.1 anti-gp49 monoclonal antibody. Redundant oligonucleotides were used to isolate a full-length 1.3-kilobase cDNA from a mouse mast cell library. The predicted amino acid sequence contains a signal peptide of 23 residues, an extracellular domain of 215 residues with three potential sites of N-linked glycosylation, a transmembrane domain of 23 residues, and a cytoplasmic tail of 42 residues. Hybridization of the gp49 cDNA was limited to mRNA extracted from those cell types that also bound the B23.1 monoclonal antibody as assessed by cytofluorographic analyses. The predicted extracellular domain of gp49 contains two regions of 48 and 51 amino acids, each flanked by cysteine residues. Both regions meet criteria for being C2-type domains of the immunoglobulin superfamily based upon the alignment of consensus amino acids and their predicted secondary structure organization. Thus, gp49, a membrane glycoprotein preferentially expressed by the progenitor mast cell population, is a new member of the immunoglobulin superfamily.
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PMID:Molecular cloning of gp49, a cell-surface antigen that is preferentially expressed by mouse mast cell progenitors and is a new member of the immunoglobulin superfamily. 171 1

We have recently described a monoclonal antibody, mAb G63, which identifies a novel membrane component of mast cells. This antigen is a glycoprotein with an apparent molecular mass of 28-40 kd, and is present on the surface of rat mucosal and serosal mast cells. Its density on cells of the mucosal mast cell line RBL-2H3 is 1 - 2 x 10(4) copies per cell. Crosslinking of this membrane protein by the intact mAb G63 results in a pronounced inhibition of the Fc epsilon RI-mediated secretion of RBL-2H3 cells. Here we show that crosslinking this novel membrane component inhibits biochemical processes initiated by Fc epsilon RI aggregation, such as the hydrolysis of phosphatidylinositides, the influx of Ca2+ ions, and the synthesis and release of de novo formed inflammatory mediators. Furthermore, by fluorescence microscopy, we show that crosslinking of Fc epsilon RI-IgE complexes by multivalent antigen results in redistribution of the membrane component recognized by G63, leading to its co-localization with the aggregated Fc epsilon RI. This localization is inhibited by NaN3, but not by colchicine or cytochalasin D. Fc epsilon RI crosslinking also promotes internalization of this novel membrane component. Taken together these data suggest that the mast cell membrane component recognized by mAb G63 is involved in the Fc epsilon RI-mediated stimulation of these cells, and thus can be considered a mast cell function-associated antigen (MAFA).
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PMID:Possible interactions between the Fc epsilon receptor and a novel mast cell function-associated antigen. 183 52

Dog mastocytomas (anatomic and biochemical features comparable to normal dog and human mast cells) were used to study actions of mast cell mediators on several airway effector systems. We showed mastocytoma cell adherence to both cultured tracheal epithelial cells and tracheal tissue sections for greater than 48 h that was abolished completely by pretreatment of mast cells with proteases. This mast cell-epithelial cell adhesion-interaction reaction is probably mediated by a mast cell plasma membrane protein. Mast cell mediators stimulate short circuit current and ion flux across dog tracheal epithelia mounted in Ussing chambers. Pretreatment of epithelia with indomethacin blocks this effect, probably by inhibiting LTC4-induced activation of epithelial cyclooxygenases. Mastocytoma cells also increase secretion from cultured serous submucosal gland cells. Blockade of cyclooxygenase and lipoxygenase pathways in mastocytoma cells activated by calcium ionophore does not alter secretion of the serous cells induced by mastocytoma supernatant, but secretion induced by mastocytoma supernatant or purified mast cell chymase is markedly reduced by an inhibitor of chymase. These results suggest that mast cells can alter airway secretions not only by actions on ion flux in epithelial cells but also by actions on submucosal gland secretion; this latter action appears to be mediated by mast cell chymase. Finally, supernatants from mastocytoma cells stimulated by calcium ionophore greatly increase the sensitivity and magnitude of the contractile response of dog bronchial smooth muscle to histamine. These effects are blocked by an inhibitor of mast cell tryptase.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Mast cells and cell-to-cell interactions in airways. 190 Jun 81

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

Three types of agonists; receptor-mediated concanavalin A), direct (phorbol ester), and membrane-perturbing (compound 48/80), elicit histamine secretion from rat peritoneal mast cells. We tested whether activation of the mast cells by these agents is accompanied by subcellular redistribution of protein kinase C. Phorbol ester treatment predictably caused a profound decrease of phospholipid/Ca2+-dependent histone kinase activity in the cytosol and a concomitant increase of [3H]PMA-binding capacity in the membrane fraction, in a time- and concentration-dependent manner. Similar, but less marked effects were observed with stimulations by concanavalin A and compound 48/80. When mast cells labeled with [32P] and then stimulated with the agents, phosphorylation of a 50,000-Dalton protein was enhanced in the membrane fraction. These results suggest that protein kinase C may play a role in mast cell activation through phosphorylation of the membrane protein.
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PMID:Redistribution of phospholipid/Ca2+-dependent protein kinase in mast cells activated by various agonists. 243 82

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

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

1. The L-type Ca2+ current was recorded in guinea-pig ventricular myocytes by the patch clamp technique in the whole-cell configuration. The modification of the current by intracellular application of proteases was studied. 2. During the first phase of action, trypsin, an endopeptidase, increased the amplitude of Ca2+ current about 3-fold. 3. Thereafter, there was a drastic slowing of the inactivation time course of the enhanced Ca2+ current. The half-time of inactivation increased from a control value of about 25 ms to values larger than 200 ms. 4. Cell dialysis with carboxypeptidase A, an exopeptidase, also enlarged the amplitude of Ca2+ current, but did not affect the kinetics of Ca2+ current. Leuaminopeptidase did not modify the Ca2+ current. 5. The hypothesis that Ca2+ channels are affected by the protease is supported by the fact that alterations of the extracellular Na+ or K+ concentration did not influence the modification of the membrane current. Another argument for the involvement of Ca2+ channels is that the modified membrane current could be blocked by inorganic and organic Ca2+ channel blockers (e.g. 10 microM-Cd2+, 100 microM-La3+ or 1 microM-D600). 6. Although the actions of trypsin and maximal concentrations of isoprenaline on the amplitude of the Ca2+ current were not additive, the slowing of inactivation by trypsin occurred independently from beta-adrenergic stimulation. 7. The effect of trypsin on the Ca2+ current could not be blocked by intracellular 5'-adenylyl-imidodiphosphate (AMP-PNP) or Rp-adenosine 3'5'-monothionophosphate (Rp-cAMPS), both of which are known to suppress the cyclic AMP-dependent phosphorylation of the Ca2+ channel. 8. It was concluded that trypsin may directly modify the membrane protein which forms the Ca2+ channel. Since the increment in peak Ca2+ current resembled the action of cyclic AMP-dependent phosphorylation, it may be related to the removal of a 'chemical' inactivation gate which is normally controlled by phosphorylation. The slowing of the time course of Ca2+ current inactivation by trypsin could be due to a modification of the voltage-dependent inactivation gate. Alternatively, the endopeptidase might remove an internal Ca2+ binding site normally responsible for Ca2+-dependent inactivation.
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PMID:Modification of L-type calcium current by intracellularly applied trypsin in guinea-pig ventricular myocytes. 285 49

The presynaptically active snake venom neurotoxin beta-bungarotoxin (beta-Butx) is known to affect neurotransmitter release by binding to a subtype of voltage-activated K+ channels. Here we show that mast cell degranulating (MCD) peptide from bee venom inhibits the binding of 125I-labeled beta-Butx to chick and rat brain membranes with apparent Ki values of 180 nM and 1100 nM, respectively. The mechanism of inhibition by MCD peptide is noncompetitive, as is inhibition of 125I-beta-Butx binding by the protease inhibitor homologue from mamba venom, toxin I. Beta-Butx and its binding antagonists thus bind to different sites of the same membrane protein. Removal of Ca2+ by ethylene glycol bis(beta-aminoethyl ether)-N,N,N',N'-tetraacetic acid inhibits the binding of 125I-beta-Butx by lowering its affinity to brain membranes.
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PMID:Inhibition of beta-bungarotoxin binding to brain membranes by mast cell degranulating peptide, toxin I, and ethylene glycol bis (beta-aminoethyl ether)-N,N,N',N'-tetraacetic acid. 313 91

The preparation of a pure, monoiodinated derivative of mast cell-degranulating peptide (MCD peptide), the mast cell-degranulating peptide from bee venom, has enabled us to identify binding sites in rat brain membranes that have a high affinity and specificity for this peptide. These binding sites are evenly distributed throughout the brain and copurify with synaptic membranes. Saturation-binding curves, determined by rapid centrifugation or filtration assays, indicate a single population of sites with a concentration of 200 fmol/mg membrane protein in partially fractionated, lysed brain membranes. Dissociation constants of 150 and 140 pM were calculated for the iodinated and native peptides, respectively. These binding sites are probably associated with the neurotoxic action of MCD peptide in the central nervous system. No similar binding sites have been identified in peripheral tissue preparations, and other polycationic mast cell-degranulating agents including compound 48/80 show no such specificity. Specific modification of the primary amines, arginine residues, or disulfide bridges of MCD peptide results in a complete loss of binding activity. Other components of bee venom show specificity for the MCD peptide-binding site, suggesting that a class of neurotoxins in bee venom (possibly including secapin and tertiapin, but not apamin) share the specific action of MCD peptide on the central nervous system.
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PMID:The characterization of high-affinity binding sites in rat brain for the mast cell-degranulating peptide from bee venom using the purified monoiodinated peptide. 650 Dec 83


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