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 isolated cDNA clones encoding a mouse low affinity receptor for IgE (Fc epsilon RII) from a cDNA library of BALB/c splenic B cells activated with LPS and IL-4. The 2.2-kb cDNA clone encodes a 331 amino acid membrane glycoprotein that is homologous to human Fc epsilon RII (CD23) and a family of carbohydrate-binding proteins. COS7 cells transfected with the cDNA clones expressed a 45,000 m.w. protein that bound IgE and the anti-Fc epsilon RII mAb, B3B4. Fc epsilon RII mRNA was up-regulated in mouse B cells by culture with IL-4, but not in B cells cultured with IgE. Fc epsilon RII mRNA was detected in IgM+/IgD+ B cell lines, but not in pre-B cell lines or in B cell lines which have undergone differentiation to secrete Ig. The monocyte line P388D1, mast cell lines MC/9 and PT18, and peritoneal macrophages stimulated with IL-4 lacked detectable Fc epsilon RII mRNA, as did Thy-1.2+, CD4+, and CD8+ normal T cells and Thy-1.2+ T cells from Nippostrongylus brasiliensis-infected mice.
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PMID:Isolation, characterization, and expression of cDNA clones encoding the mouse Fc receptor for IgE (Fc epsilon RII)1. 213 45

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

The increase of mast cells at sites of tissue inflammation suggests the production of local factors chemotactic for mast cells. In this report, we demonstrate that the murine mast cell line PT18 and primary mouse bone marrow-derived mast cells chemotax to the basement membrane glycoprotein laminin, and that the synthetic laminin A chain-derived peptide, PA22-2, represents a region of laminin that contains a major chemoattractant site. Mast cell chemotaxis to laminin is enhanced after activation of mast cells by the calcium ionophore, A23187, or PMA and by sensitization of the cells with IgE followed by exposure to antigen. Chemotaxis is not increased in the presence of IL-3 and is independent of mast cell degranulation, as histamine release did not occur when cells were activated with PMA. Mast cell chemotaxis to laminin and its enhancement by IgE-dependent mast cell activation provides a mechanism by which these cells may be attracted to sites of tissue injury. Such activity may be particularly relevant in the response of host tissues to inflammation accompanying parasitic infestations, allergic reactions, and wound healing.
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PMID:Mast cells chemotax to laminin with enhancement after IgE-mediated activation. 259 71

Murine monoclonal antibodies (mAbs) have previously been raised by us with specificity to the following plasma membrane components of rat mucosal mast cells (RBL-2H3 subline): (1) the alpha-subunit of the type I Fc epsilon receptor, (Fc epsilon RI); (2) a newly described membrane glycoprotein, distinct from any of the Fc epsilon RI subunits, yet affecting the cell's secretory response to Fc epsilon RI clustering and hence named mast cell functional antigen (MAFA), and (3) a glycolipid, GD1b present in the RBL-2H3 cell's plasma membrane. The cross-reactivity of these mAbs with human basophils (from both allergic and nonallergic children) was now examined by three different protocols: (1) by microscopy (light and dark field) of double stained basophils by toluidine blue and by fluorescein-labeled anti-mouse antibodies as secondary ligands binding to the mAbs; (2) by flow cytometry (using directly labeled mAbs), and (3) by monitoring the binding of the 125I-radiolabeled mAbs. In order to exclude the possibility of the (intact) mAbs binding to the Fc gamma receptors, also present on human basophils, Fab and (Fab')2 fragments derived from the above respective mAbs were employed wherever necessary. The results show that the above described murine mAbs fragments do bind specifically to basophils obtained from allergic and nonallergic children. These antibodies may thus also be employed as tools for studying the human basophils function.
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PMID:Antibodies specific to membrane components of rat mast cells are cross-reacting with human basophils. 792 29

pl6l is a membrane glycoprotein expressed on mast cells and on activated macrophages but on few if any other cells of hematopoietic lineages. Its lack of expression on basophils makes it useful to distinguish mast cells from basophils and aids in the analysis of mast cells and their precursors. p161 was purified from the mast cell line CFTL-12 by affinity chromatography and subjected to limited proteolysis. The sequences of the resultant peptides indicated that p161 is homologous with rat and human CD13/aminopeptidase N. Using oligonucleotide primers derived from rat CD13 cDNA, a mouse cDNA was obtained. Its deduced amino acid sequence displays 87% identity with rat CD13 and 76 % identity with human CD13. Expression of the mouse cDNA in M12 cells, which are p161 negative, renders these cells positive for staining with the monoclonal anti-p161 Ab, K-1. Furthermore, a mAb raised against partially purified mouse intestinal aminopeptidase N specifically blocked the binding of K-1 to both CFTL-12 cells and the transfected M12 cells. These results strongly indicate that mouse p161 is CD13/aminopeptidase N. Northern blot analysis shows that p161 mRNA is most abundantly expressed in the intestinal tract and kidney and is present in liver, lymph node, spleen, and brain.
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PMID:p161, a murine membrane protein expressed on mast cells and some macrophages, is mouse CD13/aminopeptidase N. 880 62

The mast cell function-associated antigen (MAFA) is a membrane glycoprotein first identified on rat mucosal type mast cells (line RBL-2H3) and known to inhibit the Fc epsilon RI-mediated secretory response. In its extracellular domain, an amino acid stretch homologous to the carbohydrate binding domain of calcium-dependent animal lectins has been found. To investigate its carbohydrate binding capacity, the MAFA has been expressed in the Spodoptera frugiperda insect cell line (Sf9) using the baculovirus expression system. Analysis by flow cytometry and surface labeling with 125I showed that the recombinant MAFA (rMAFA) was expressed as a monomeric and disulfide-linked homodimeric glycoprotein in the membrane of the insect cells, and both forms exhibited the same epitopes as the protein isolated from RBL-2H3 cells. Immunoaffinity-purified rMAFA was then employed for studies of its saccharide binding capacity by using different neoglycans and glycoproteins. The rMAFA was found to bind specifically terminal mannose residues in a Ca(2+)-dependent manner. These results support the notion that the extracellular domain of the MAFA is indeed able to bind ligands, which may be modulatory for the mast cell response.
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PMID:The mast cell function-associated antigen exhibits saccharide binding capacity. 936 10

Mast cells are known to secrete endogenously synthesized leukotriene C4 (LTC4), but the identity of the responsible export pump in human mast cells was unknown. The multidrug resistance proteins MRP1 and MRP2 have been identified as primary-active ATP-dependent export pumps for various amphiphilic anions including the glutathione conjugate LTC4. We therefore studied the expression at the RNAand protein levels of both MRP1 and MRP2 as well as the ATP-dependent LTC4 transport in the human mast cell line HMC-1. Upon stimulation by 1 microM ionomycin, intact HMC-1 cells generated 26 pmol LTC4/10(8) cells within 20 min. Transport experiments using inside-out HMC-1 membrane vesicles demonstrated an ATP-dependent LTC4 transport amounting to 1.4 pmol x (mg protein)(-1) x min(-1). Reverse transcription PCR indicated that HMC-1 cells express mRNA of MRP1, but not of MRP2 or MRP3. Cloning and sequencing of the amplified PCR fragment confirmed its identity with the human MRP1 sequence. Immunoblots using antibodies against MRP1 and MRP2 demonstrated that HMC-1 cells contain the MRP1 but not the MRP2 protein. Our results indicate that the 190 kDa integral membrane glycoprotein MRP1 mediates the ATP-dependent export of LTC4 from human mast cells to the extracellular space.
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PMID:Human mast cells secreting leukotriene C4 express the MRP1 gene-encoded conjugate export pump. 979 45

The mast cell function-associated Ag (MAFA) is a type II membrane glycoprotein originally found on the plasma membrane of rat mucosal-type mast cells (RBL-2H3 line). A C-type lectin domain and an immunoreceptor tyrosine-based inhibitory motif (ITIM) are located in the extracellular and intracellular domains of MAFA, respectively. MAFA clustering has previously been shown to suppress the secretory response of these cells to the FcepsilonRI stimulus. Here we show that the tyrosine of the ITIM undergoes phosphorylation, on MAFA clustering, that is markedly enhanced on pervanadate treatment of the cells. Furthermore, the Src homology 3 domain of the protein tyrosine kinase Lyn binds directly to a peptide containing nonphosphorylated MAFA ITIM and PAAP motif. Results of both in vitro and in vivo experiments suggest that Lyn is probably responsible for this ITIM phosphorylation, which increases the Src homology domain 2 (SH2) affinity of Lyn for the peptide. In vitro measurements established that tyrosine-phosphorylated MAFA ITIM peptides also bind the SH2 domains of inositol 5'-phosphatase (SHIP) as well as protein tyrosine phosphatase-2. However, the former single domain is bound 8-fold stronger than both of the latter. Further support for the role of SHIP in the action of MAFA stems from in vivo experiments in which tyrosine-phosphorylated MAFA was found to bind primarily SHIP. In RBL-2H3 cells overexpressing wild-type SHIP, MAFA clustering causes markedly stronger inhibition of the secretory response than in control cells expressing normal SHIP levels or cells overexpressing either wild-type protein tyrosine phosphatase-2 or its dominant negative form. In contrast, on overexpression of the SH2 domain of SHIP, the inhibitory action of MAFA is essentially abolished. Taken together, these results suggest that SHIP is the primary enzyme responsible for mediating the inhibition by MAFA of RBL-2H3 cell response to the FcepsilonRI stimulus.
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PMID:SH2 domain-containing inositol polyphosphate 5'-phosphatase is the main mediator of the inhibitory action of the mast cell function-associated antigen. 1171 5