UNIPROT:P15088 - FACTA Search

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

Two murine monoclonal antibodies were prepared against tryptase, the major neutral protease and protein component of human mast cells. The antibodies were termed G5 (IgG2B-kappa) and H4 (IgG1-kappa). They were specific for tryptase by an enzyme-linked immunosorbent assay and an immunotransblot technique. The latter procedure showed that H4 and G5 each bind to the 35,000 and 37,000 m.w. subunits of tryptase, indicating immunologic cross-reactivity between the subunits. The monoclonal antibodies reacted only with tryptase subunits in an extract of dispersed lung cells. By immunofluorescence microscopy, tryptase was further identified to be present only in cytoplasmic granules of Alcian Blue-stained mast cells in dispersed pulmonary cell preparations. No evidence for a mast cell subtype lacking tryptase was detected. In addition, a procedure for the purification of tryptase to homogeneity from dispersed pulmonary cells containing less than 10% mast cells was developed; this procedure involved high salt extraction, ammonium sulfate precipitation, and sequential chromatography with decyl-agarose, DEAE-agarose, and heparin-agarose. The procedure resulted in a higher yield even with less pure starting material than reported previously. Tryptase is a selective marker for mast cells in dispersed pulmonary cells, and can be detected with specific anti-tryptase antibodies.
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PMID:Monoclonal antibodies against human mast cell tryptase demonstrate shared antigenic sites on subunits of tryptase and selective localization of the enzyme to mast cells. 257 51

Colony-stimulating factors (CSFs) produced by two simian virus 40(SV40) transformed macrophage cell lines (BAM1 and BAM3), and three hybrids (HM3-11, HM3-12, and HM3-14) derived from fusion between BAM3 and a Chinese hamster cell line (hs222-16) were examined. HM3-11 and HM3-14 produce two molecular species of CSF, which are not found in the conditioned media from cultures of BAM1 and BAM3 or lipopolysaccharide (LPS), phorbolmyristate-acetate (PMA), and zymosan-stimulated BAM3. HM3-12, which is classified into another group in terms of CSF secretion, does not produce these two CSFs. On the basis of various criteria, one of these CSF species (peak 1-CSF) was characterized as a macrophage-colony-stimulating factor (M-CSF). The other CSF (peak 2-CSF) induced a group of bone marrow cells in granulocytes and macrophages as well as growth of a mast cell line, IC2. This CSF has an apparent molecular weight of 18,000, estimated by SDS-polyacrylamide gel electrophoresis. Unlike interleukin 3 (IL3) from WEHI-3 cells, the growth factor activity of peak 2-CSF binds to DEAE-Sephacel. Thus, peak 2-CSF is similar to a granulocyte-macrophage colony-stimulating factor (GM-CSF) rather than to IL3. The anti L cell CSF serum does not inhibit the CSF activity in Chinese hamster fibroblast conditioned medium, and the IC2 cells do not respond to Chinese hamster lung conditioned medium (CHLCM), suggesting that peak 1- and peak 2-CSF are of mouse origin.
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PMID:Properties of colony-stimulating factors produced by macrophage cell lines and hybrid cells. 302 9

beta-Bungarotoxin (beta-Butx) is a presynaptically active neurotoxin which blocks neuronal A-type K+ channels. Here, the efficient solubilisation and about 300-fold purification of the beta-Butx-binding protein from chick brain were achieved by detergent extraction at high ionic strength followed by chromatography on DEAE Affigel Blue, beta-Butx Affigel 102 and wheat germ agglutinin Sepharose. Binding of 125I-labelled beta-Butx to the purified protein was inhibited by two other K+ channel ligands, dendrotoxin I and mast cell-degranulating peptide. It is concluded that the beta-Butx-binding protein is a member of a family of voltage-gated K+ channels which exhibit varying affinities for different polypeptide ligands.
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PMID:The beta-bungarotoxin-binding protein from chick brain: binding sites for different neuronal K+ channel ligands co-fractionate upon partial purification. 319 1

Chondroitin sulfate E proteoglycan was extracted in the presence of protease inhibitors from 6 X 10(9) mouse bone marrow-derived, interleukin 3-dependent mast cells, of which 3 X 10(7) had been biosynthetically labeled with [35S]sulfate or [3H]glycine. Chondroitin sulfate E proteoglycan was purified to apparent homogeneity by density-gradient centrifugation, differential molecular weight dialysis, DEAE-52 ion exchange chromatography, and Sepharose CL-4B gel filtration chromatography. Chondroitin sulfate E proteoglycan, radiolabeled with [3H]glycine or [35S]sulfate, filtered as a single peak of radioactivity on Sepharose CL-4B with a Kav of 0.41. When purified [3H]glycine-labeled proteoglycan was digested with chondroitinase ABC and subjected to gel filtration, all of the radioactivity was shifted to a lower molecular weight. As assessed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis the Mr of the peptide core obtained by chondroitinase ABC treatment was approximately 10,000. The purified proteoglycan was resistant to degradation by collagenase, clostripain, trypsin, chymotrypsin, elastase, chymopapain, V8 protease, proteinase K, and Pronase, as assessed by gel filtration chromatography and sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Analysis of the core peptide of the intact proteoglycan revealed that glycine, serine, and glutamic acid/glutamine accounted for 70% of the total amino acids and were present in a molar ratio of 4.3/1.6/1.0. When analyzed for neutral hexose content by gas-liquid chromatography, the proteoglycan contained approximately 2% of its weight as mannose, fucose, galactose, and other sugars, indicating that oligosaccharides were linked to the peptide core. The mouse bone marrow-derived mast cell chondroitin sulfate E proteoglycan, like the rat serosal mast cell heparin proteoglycan, is markedly protease resistant, has highly sulfated glycosaminoglycans, and contains a peptide core that is rich in serine and glycine. These characteristics of the mast cell class of intracellular proteoglycans may contribute to their function in stimulus-induced granule secretion as well as in mediator storage, including retention of cationic neutral proteases.
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PMID:Purification and analysis of the core protein of the protease-resistant intracellular chondroitin sulfate E proteoglycan from the interleukin 3-dependent mouse mast cell. 393 50

A method is reported for the preparative isolation of the two forms of pro-(carboxypeptidase A) from pig pancreas: the monomer and the binary complex with pro-(proteinase E). This method, which is mainly based on chromatography on DEAE-Sepharose at pH 5.7, allows these proenzymes to be prepared more quickly and in safer conditions than with other reported methods. Undegraded and homogeneous carboxypeptidase A1 and A2 species (peptidyl-L-amino acid hydrolase, EC 3.4.17.1), in monomeric forms with high specific activity, are also obtained in high yield by controlled trypsin activation of either of the pro-(carboxypeptidases A) followed by chromatography on DEAE-Sepharose at pH 5.8 under dissociating conditions (7 M-urea).
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PMID:Preparative isolation of the two forms of pig pancreatic pro-(carboxypeptidase A) and their monomeric carboxypeptidases A. 405 13

1. The subunit structure of rabbit subcomponent C1q was examined in a previous publication (Reid et al., 1972). The present paper describes some aspects of the structure of the polypeptide chains derived from the molecule. 2. The three polypeptide chains, produced by performic oxidation, of rabbit subcomponent C1q were isolated by ion-exchange chromatography in 8m-urea on DEAE-cellulose. 3. Each chain was found to contain 15-18% glycine and significant amounts of the amino acids hydroxyproline and hydroxylysine. 4. By means of collagenase digestion it was shown that all three chains of rabbit subcomponent C1q contain collagen-like sequences of amino acids which constitute about 40% of each chain. 5. By use of carboxypeptidase A it was established, indirectly, that the collagen-like sequences, in one of the chains, are probably located near, or at, the N-terminal end of the chain. 6. Collagenase digestion and heating at 52 degrees C (but not at 49 degrees C) caused rapid loss of native rabbit subcomponent C1q haemolytic activity.
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PMID:Studies on the structure and activity of rabbit Clq (a subcomponent of the first component of complement). 437 40

Human nasal turbinates were cultured in the presence of 3H-glucosamine, which is incorporated into nasal mucous glycoproteins. Nasal mucous glycoprotein was then characterized biochemically, and the effects of various neurohormones and immunologic stimulation on mucous glycoprotein release were analyzed. Fractionation of nasal mucous glycoprotein by gel filtration chromatography revealed a molecular size range of 2 to 200 X 10(5) (as judged by protein markers) but displayed a single, acidic charge, as reflected both in a narrow elution pattern from DEAE-cellulose and a sharp isoelectric focusing point of 2.6. Highly enriched nasal mucous glycoprotein preparations consisted of 80 per cent carbohydrate and 20 per cent protein (by weight) and included enzymatically cleavable carbohydrate side chains with molecular weights of 1,600 to 1,800. Thus, nasal mucous glycoproteins are a family of molecules that express uniform acidic charge characteristics and a wide range of molecular sizes. Cholinergic stimulation of atropine-inhibitable muscarinic receptors increased nasal mucous glycoprotein release in a dose-related manner, as did alpha-adrenergic stimulation. However, beta-adrenergic stimulation did not affect mucous glycoprotein release. Immunologic stimulation of nasal mast cells by either reversed anaphylaxis or antigen challenge after passive sensitization caused both histamine release and increased mucous glycoprotein release. Thus, nasal turbinates provide an accessible source of tissue for the analysis of nasal mucus secretion and mast cell degranulation and may provide a model for the study of pharmacologic approaches to the universally experienced discomfort of rhinorrhea.
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PMID:Analysis of human nasal mucous glycoproteins. 620 99

Chrysotile asbestos interacts with mucin-secreting cells of tracheal organ cultures, causing an increase in secretion of mucin into the culture medium. This response occurs in the absence of obvious morphologic damage to tracheal epithelial cells. We speculated that asbestos-induced hypersecretion was regulated by the interaction of fibers with specific carbohydrate residues on the cell surface. To test this hypothesis, lectins, i.e., proteins with a high affinity for mono- and oligosaccharides on the plasma membrane, were added to tissues 30 min before addition of chrysotile. Secretion of mucin into the medium was then determined over a 2-hr period by using incorporation of 3H-glucosamine. Blocking of alpha-D-mannose and alpha-D-glucose residues inhibited chrysotile-induced hypersecretion (p less than 0.05), whereas lectins blocking residues of alpha-D-N-acetylgalactosamine, beta-D-N-acetylglucosamine, alpha-L-fucose and sialic acids were ineffective. Preincubation of cultures with carboxypeptidase A or phospholipase A2, but not with neuraminidase, diminished mucin secretion caused by chrysotile. To determine if the positive surface charge of chrysotile was important in interaction with mucin cells, we examined comparatively the effects of various polycations (cationic ferritin, polylysine, DEAE-dextran) and chrysotile after leaching of fibers to remove Mg2+. Although use of polycations enhanced secretion of mucin, effects were not as striking as those observed with chrysotile. In contrast, leached chrysotile failed to elicit a hypersecretory response. These results suggest the interaction of a positively charged component (presumably Mg2+) of chrysotile with glycolipids and glycoproteins containing terminal residues of alpha-D-mannose or alpha-D-glucose.
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PMID:Studies using lectins to determine mineral interactions with cellular membranes. 631 63

Two different isoenzymes of fructose-P2 aldolase can be resolved by chromatography of crude spinach leaf extracts on DEAE-cellulose columns. The acidic isoenzyme comprises about 85% of the total leaf aldolase activity. The two forms differ in primary structure as judged by their distinctive amino acid compositions, tryptic peptide patterns, and immunological properties. Only the acidic isoenzyme was detected in extracts of isolated chloroplasts, suggesting that this molecule represents the chloroplast form of spinach leaf aldolase while the basic isoenzyme is of cytosolic origin. The cytosolic (basic) isoenzyme and chicken aldolase A4 are similar in the following respects. 1) They have similar specific catalytic activity (10-15 units/mg); 2) they are both highly sensitive to inactivation by very limited digestion with bovine pancreatic carboxypeptidase A; 3) they both have subunit molecular weights of 40,000; 4) they both have derivatized (blocked) NH2-terminal structures; 5) they are both resistant to thermal denaturation at 50 degrees C; and 6) they both regain catalytic activity following reversible denaturation at pH 2.3 or in 5.8 M urea. Also, the cytosolic aldolase cross-reacted immunologically with the single aldolases present in spinach seeds and in wheat germ. Further, this isoenzyme readily "hybridized" with chicken aldolase A4 in vitro. These observations demonstrate the close homology between the cytosolic aldolases derived from plant and animal origins. The chloroplast aldolase had a specific catalytic activity of about 8 units/mg and, like its cytosolic counterpart, was severely inactivated by limited digestion with carboxypeptidase A. However, this isoenzyme was distinct from the cytosolic aldolase in the following characteristics: 1) its "small" subunit size (Mr congruent to 38,000); 2) its underivatized NH2-terminal structure; 3) its high sensitivity to thermal denaturation at 50 degrees C; and 4) its inability to refold into an enzymatically active conformation following denaturation at pH 2.3 or in 5.8 M urea. The distinctive properties of the chloroplast aldolase may be expected for an enzyme which is synthesized as a higher molecular weight precursor on cytosolic polysomes and is then proteolytically processed to the "mature" form during its migration into the chloroplast organelle.
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PMID:Isolation and characterization of the cytosolic and chloroplast forms of spinach leaf fructose diphosphate aldolase. 642 Mar 97

Proteoglycans from three cloned, granulated lymphocyte cell lines with natural killer (NK) function (NKB61A2, HY-3, H-1) and one mast cell line (PT-18) were labeled with [35S]sulfate. [35S]proteoglycans were extracted in 1 M NaCl with protease inhibitors to preserve their native structure and were separated from unincorporated [35S]sulfate by Sephadex G-25 chromatography. [35S]proteoglycans from all four cell lines were chromatographed over Sepharose 4B and were found to have a similar range of m.w. The [35S]glycosaminoglycans from each cell line were then separated from parent proteoglycans by treatment with 0.5 M NaOH. The [35S]glycosaminoglycans from the three lymphocyte cell lines exhibited a similar m.w. as assessed by Sepharose 4B gel filtration, whereas the [35S]glycosaminoglycans from the mast cell line chromatographed as a smaller m.w. molecule. [35S )glycosaminoglycan charge characteristics were evaluated with DEAE C1-6B ion exchange chromatography. The consistency of the elution patterns was determined by using [35S]glycosaminoglycans obtained from radiolabelings of each cell line separated by 6 mo in culture. Each NK lymphocyte cell line reproducibly produced two distinct [35S]glycosaminoglycan chains that eluted in two regions well before the commercial heparin marker. The proportions of each chain were dependent upon the specific cell line. The mast cell line produced a single [35S]glycosaminoglycan chain, which eluted overlapping the internal commercial heparin marker, consistent with its higher charge characteristics. [35S]glycosaminoglycans from all cell lines were identified as chondroitin sulfates with the use of specific polysaccharidases. The NK lymphocyte glycosaminoglycans contained chondroitin 4-sulfate disaccharides. The mast cell glycosaminoglycans contained oversulfated disaccharides and chondroitin 4-sulfate disaccharides. Thus, each granulated NK lymphocyte cell line produced chondroitin sulfate glycosaminoglycans that were characteristic of that cell line and of different composition and less charge than those produced by cultured mast cells. These findings demonstrate that glycosaminoglycan profiles are useful biochemical markers in the characterization of diverse granulated cell lines including NK lymphocytes and mast cells.
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PMID:Glycosaminoglycan profiles in cloned granulated lymphocytes with natural killer function and in cultured mast cells: their potential use as biochemical markers. 642 30

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