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)

This study concerned the fragmentation of beta-endorphin (beta-EP-(1-31) by synaptic membrane-bound peptidases. The peptides which accumulated during digestion of beta-endorphin by isolated synaptosomal plasma membrane preparations of rat brain were separated and isolated by high pressure liquid chromatography. Amino acid analysis of the peptide fractions indicated the formation of beta-EP-(1-21), beta-EP-(2-21) (pH 7.4), beta-EP-(18-31), beta-EP-(1-14), and beta-EP-(1-13) (pH 5.0) in addition to previously identified gamma-endorphin (beta-EP-(1-17)), alpha-endorphin (beta-EP-(1-16), and their des-tyrosine fragments (Burbach, J. P. H., Loeber, J. G., Verhoef, J., Wiegant, V. M., De Kloet, E. R., and De Wied, D. (1980) Nature 283, 96-97). The beta-endorphin fragments obtained with crude or with purified synaptosomal plasma membranes differed only quantitatively. The peptidase which converted gamma-endorphin into beta-EP-(1-16), beta-EP-(1-15), beta-EP-(1-14), and beta-EP-(1-13), was considerably active at pH 5.0 and resembled carboxypeptidase A in degrading gamma-endorphin; the activity was reduced by the carboxypeptidase A inhibitor D-phenylalanine. The data supplement previous findings and allow routes to be delineated for the conversion of beta-endorphin by brain synaptic membranes. A pathway comprising the main events in the conversion processes is proposed and is discussed in relationship to the significance of beta-endorphin as a precursor for neuropeptides with distinct central activities.
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PMID:Proteolytic conversion of beta-endorphin by brain synaptic membranes. Characterization of generated beta-endorphin fragments and proposed metabolic pathway. 627 86

The events which lead to airway narrowing in bronchial asthma are complex. There is little doubt that mast cell-derived pharmacological agents are involved, at least in part, in the initiation of the asthmatic response. However, the inflammatory response which follows mast cell activation might have more relevance to the daily pattern of asthma than the direct effects of mediators on bronchial tissue. Although the IgE mediated release of mediators from sensitized mast cells seems to play a role in pathogenesis in some individuals for some of the time, there is now increasing awareness that mast cells are also triggered by a number of non-immunological stimuli such as exercise/cold air, infection and agents which activate the complement system. Mast cell mediators are either pre-formed within granules or generated from membrane-bound phospholipids. The pre-formed mediators include histamine, various chemotactic peptides including ECF-A and the high molecular weight neutrophil chemotactic factor (NCF), proteases, glycosidases, and the heparin proteoglycan. The membrane-derived agents include the lipoxygenase products (e.g. LTB4 and the "SRS-A" leukotrienes-LTC4/D4/E4), prostaglandins and thromboxane in addition to the PAF-ace-tether (AGEPC). The mediators are diverse both in chemical composition and modes of actions. However, many of the pathological features of bronchial asthma can be explained on the basis of their recognised actions. These can be summarised as follows. Bronchial smooth muscle constriction (histamine, LTC4, LTD4, LTE4, PGF2 alfa, PGD2 and PAF); mucosal oedema (increased permeability--histamine, LTC4, LTD4 and PAF; vasodilation--PGD2, PGE2); mucous plugging (histamine, mono-HETEs and LTC4); inflammatory cell infiltrate (NCF, ECF-A peptides, HETEs, LTB4 and PAF); desquamation of epithelium (proteases, glycosidases, together with lysosomal enzymes, and basic proteins derived from neutrophils and eosinophils). It is likely that mild, easily reversible, episodic asthma is due largely to bronchial smooth muscle contraction whereas the late sustained response is more indicative of an inflammatory response, and dependent on the infiltration of neutrophils and eosinophils as the result of mediators which recruit and activate leucocytes. Much of the evidence for this is based on the demonstration that NCF concentrations in the serum are elevated during early and late phase, antigen- and exercise-induced asthma. Moderate to severe asthma is likely to be largely dependent on a subacute/chronic inflammation of the bronchi with eosinophils and mononuclear cells being prominent.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Mediators of hypersensitivity and inflammatory cells in the pathogenesis of bronchial asthma. 641 59

Purified rat peritoneal mast cells incubated with chlortetracycline showed a fluorescence emission spectrum characteristic of the membrane-bound complex with calcium ions. Treatment of the cells with chelating agents, which are thought to deplete the mast cell of sequestered calcium, led to a marked reduction in fluorescence. Activation of the cells with a number of secretagogues produced an abrupt fall in fluorescence emission, indicative of the release of bound calcium, and an accompanying liberation of histamine. These changes were, however, blocked by metabolic inhibitors and anti-anaphylactic agents, suggesting that they occurred subsequently to the exocytotic process. The significance of these findings in the application of the method to other systems is discussed.
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PMID:Use of chlortetracycline to monitor calcium mobilization during histamine secretion from the mast cell: a cautionary note. 662 51

The human lymphoblastoid cell line BL was shown to synthesise three distinct molecular species of immunoglobulin M heavy chains: membrane-bound (micrometer). intracellular (micro i) and secreted (microseconds) micro-chains. Only the membrane-bound form could be labeled with a lipophilic photoactivatable nitrene reagent. Analysis of their constituent CNBr fragments and carboxypeptidase A and B digestions of their C-terminal tails suggest that the CNBr peptide pattern of microseconds and micrometer, though similar, is not identical, and that amino acids released at the C-termini of the chains are different. The data confirm recent observations in human and murine systems be showing that the membranes-associated human micro-chain contains a hydrophobic segment, consistent with its anchorage into the lipid bilayer of the plasma membrane and a C-terminal amino acid sequence different from that of the secretory micro-chain.
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PMID:Structural differences between heavy chains of secreted and membrane-bound IgM of a human lymphoblastoid cell line. 680 91

Tubulin tyrosine ligase catalyzes the reversible addition of tyrosine to the C-terminus of tubulin alpha chains. By using ligase and carboxypeptidase A in conjunction, we have previously shown that brain cytoplasmic tubulin exists in three forms: 15-40% already has C-terminal tyrosine, another 10-30% can accept additional tyrosine, and about one-half is an uncharacterized species which is not a ligase substrate. A membrane-bound fraction of brain tubulin, purified by vinblastine precipitation from a detergent extract, has been found to differ by the complete absence of preexisting tyrosine. The membrane fraction from which tubulin was extracted also contained masked forms of both ligase and a distinct detyrosylating enzyme, which can be released by detergent extraction. The turnover of alpha-chain C-terminal tyrosine in vivo was studied by incubating brain mince with labeled tyrosine, or injecting it intracerebrally, under conditions where protein synthesis was inhibited. Tyrosine appeared to turn over to about the same extent in membrane-bound, as in soluble, tubulin. This apparently paradoxical result was not due to ATPase in the membrane fraction, which might have allowed ligase-catalyzed exchange between free and fixed tyrosine. Authentic [14C]tyrosylated tubulin added to the brain membrane fraction was not detyrosylated or subject to endoprotease digestion during subsequent procedures to isolate tubulin. The unexpected finding that tubulin tyrosylated at the C-terminal in vivo appears to be in the "non-substrate" fraction points toward a possible resolution of the paradox.
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PMID:An apparent paradox in the occurrence, and the in vivo turnover, of C-terminal tyrosine in membrane-bound tubulin of brain. 745 80

The hematopoietic microenvironment in Steel mutant mice does not support erythropoiesis, megakaryocytopoiesis, or mast cell generation. The question of whether Steel hematopoietic progenitors are present in normal numbers has never been convincingly addressed. In this report, Sl/Sld marrow cells were assessed for long-term competitive repopulation ability in vivo and for short-term growth in vitro. In vivo repopulation assays indicate that the Sl/Sld progenitors are at a distinct disadvantage when they compete against congenic genetically marked +/+ cells in a +/+ host. On the other hand, the Steel erythroid colony-forming cells (CFU-E) respond normally to erythropoietin (Epo) in vitro and are present at normal frequency. Because the Steel marrow is less cellular than normal marrow, the absolute number of CFU-E is decreased. Results suggest that the absence of membrane-bound Steel factor in the mutant donor has a direct effect on Steel hematopoietic progenitors, which is not alleviated during growth for over 6 months in a normal microenvironment. The anomaly does not seem to directly affect the frequency of more mature adult erythroid progenitors.
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PMID:Sl/Sld hematopoietic progenitors are deficient in situ. 750 59

We attempted to characterize the three-dimensional structure of dermal dendrocytes and to clarify the spatial relationships between dermal dendrocytes and mast cells, macrophages, and nerves. Normal human adult skin (breast, n = 2) was routinely processed for electron microscopy. Every other section (about 50 per data set) was collected at 80-nm intervals traversing about 8 microns of tissue. Grids showing the same cells were photographed by electron microscopy at a magnification of 4000x. Based on the 10-20 photographs per data set, cell outlines were digitized into the reconstruction program at appropriate layers and aligned. Thin, elongated cytoplasmic "dendrites" of dermal dendrocytes in two-dimensional micrographs proved to be thin, membrane-bound flaps in three-dimensional reconstruction. For dermal dendrocytes concentrated about superficial vessels (perivascular dendrocytes), the flaps enshrouded the vessel wall, and for dermal dendrocytes directly beneath the epidermis (subepidermal dendrocytes), these flaps were aligned parallel to the dermal-epidermal junction. The three-dimensional feature of dermal dendrocytes (perivascular and subepidermal) is quite similar to that of perivascular adventitial veil cells, suggesting ultrastructurally identified perivascular dendrocytes and veil cells must be identical cells. In conventional ultrathin sections, 20-40% of perivascular dendrocytes and occasional subepidermal dendrocytes were closely associated with mast cells. When viewed by computer-assisted three-dimensional reconstruction, membrane flaps of dermal dendrocytes consistently shrouded mast cell membranes for 50-90% of their perimeter; mast cells resembled a ball in a baseball glove (dermal dendrocytes). Occasional dermal dendrocytes surrounded non-myelinated nerves in the superficial dermis. Membrane flaps also enabled dermal dendrocytes to present extensive areas to the plasma membranes of adjacent monocyte/macrophages. These findings indicate that dermal dendrocytes are non-dendritic cells that are spatially related to mast cells, monocyte/macrophages, microvessels, and nerves by their membranous flaps. This suggests the need for further study of functional interactions between these cells.
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PMID:Computer-assisted three-dimensional reconstruction of human dermal dendrocytes. 759 48

Exposure to ozone has been reported to cause increased immediate bronchial reactivity to inhaled allergen in asthmatics. The purpose of these studies was to determine whether ozone induces either spontaneous physiological degranulation or enhanced immunoglobulin E (IgE)-mediated degranulation of mast cells, thus accounting for the in vivo effects noted in asthmatics. A rat mast cell line (RBL-2H3) was exposed to different levels of ozone (0.1, 0.3, 0.5, and 1.0 ppm), covered by different amounts of buffer, and both cytotoxic and nontoxic exposure conditions were determined. In addition to cytotoxicity, spontaneous release of granule products and prostaglandin D2 (PGD2) associated with ozone exposure were assessed. RBL-2H3 cells were also exposed to ozone under noncytotoxic conditions followed by stimulation with alpha-IgE to cross-link membrane-bound IgE and A23187 so that the effect of ozone on stimulated degranulation could be examined. Only exposure conditions associated with cytotoxicity were associated with spontaneous release of mast cell serotonin, indicating no physiologic degranulation due to ozone exposure. Data presented herein also demonstrate that ozone substantially inhibited both IgE- and A23187-induced degranulation. Neither catalase nor superoxide dismutase protected cells from the inhibitory effect of ozone, indicating that ozone does not act through generation of H2O2 or superoxide. Additionally, ozone caused a modest increase in spontaneous PGD2 generation only under cytotoxic conditions. Thus ozone appears to inhibit mast cell degranulation after IgE- or A23187-mediated stimulation and causes direct release of mast cell granule products and PGD2 only under conditions associated with membrane cytotoxicity.
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PMID:Modulation of mast cell functions by in vitro ozone exposure. 761 32

Histamine release from rat peritoneal mast cells induced by anti-IgE was essentially complete within 4-5 min. Xestobergsterol A and B, which are constituents of the Okinawan marine sponge Xestospongia bergquistia Fromont, dose-dependently inhibited anti-IgE-induced histamine release from rat mast cells. The IC50 values of xestobergsterol A and B for histamine release in mast cells activated by anti-IgE were 0.07 and 0.11 microM, respectively. Anti-IgE stimulated PI-PLC activity in a mast cell membrane preparation. Xestobergsterol A dose-dependently inhibited the generation of IP3 and membrane-bound PI-PLC activity. Moreover, xestobergsterol A inhibited Ca(2+)-mobilization from intracellular Ca(2+)-stores as well as histamine release in mast cells activated by anti-IgE. On the other hand, xestobergsterol B did not inhibit the membrane-bound and cytosolic PI-PLC activity, IP3 generation or the initial rise in [Ca2+]i in mast cells activated by anti-IgE. These results suggest that the mechanism of inhibition by xestobergsterol A of the initial rise in [Ca2+]i, of the generation of IP3, and of histamine release induced by anti-IgE, was through the inhibition of PI-PLC activity.
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PMID:Mechanism of inhibition of IgE-dependent histamine release from rat mast cells by xestobergsterol A from the Okinawan marine sponge Xestospongia bergquistia. 768 4

Stem cell factor (SCF) is produced by stromal cells as a membrane-bound molecule, which may be proteolytically cleaved at a site close to the membrane to produce a soluble bioactive form. The proteases producing this cleavage are unknown. In this study, we demonstrate that human mast cell chymase, a chymotrypsin-like protease, cleaves SCF at a novel site. Cleavage is at the peptide bond between Phe-158 and Met-159, which are encoded by exon 6 of the SCF gene. This cleavage results in a soluble bioactive product that is 7 amino acids shorter at the C terminus than previously identified soluble SCF. This research shows the identification of a physiologically relevant enzyme that specifically cleaves SCF. Because mast cells express the KIT protein, the receptor for SCF, and respond to SCF by proliferation and degranulation, this observation identifies a possible feedback loop in which chymase released from mast cell secretory granules may solubilize SCF bound to the membrane of surrounding stromal cells. The liberated soluble SCF may in turn stimulate mast cell proliferation and differentiated functions; this loop could contribute to abnormal accumulations of mast cells in the skin and hyperpigmentation at sites of chronic cutaneous inflammation.
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PMID:Chymase cleavage of stem cell factor yields a bioactive, soluble product. 925 27


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