Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

The cellular and intracellular metabolization sites of the tissue hormone and paracrine compound histamine as a source for the indirect and potentially toxic or physiological mediator molecule H2O2 are not yet known. Therefore, in the present study, histamine was used as the substrate in a cerium-diaminobenzidine-H2O2-Co procedure to visualize for the first time the oxidative deamination and H2O2-production sites of this amine in various laboratory animals. Diamine oxidase (DAOX) was shown to be the responsible enzyme. With the exception of marmosets, all species could deaminate histamine oxidatively and form H2O2. In most species, H2O2 was produced by DAOX from histamine in small intestinal enterocytes; in rats H2O2 was generated in all vascular and non-vascular smooth muscle cells; in guinea-pigs only smooth muscle cells in the digestive tract and uterus and in addition the cardiac and gastric capillary endothelium and hepatic sinusoidal endothelium produced H2O2. Furthermore, in some species H2O2 was generated by DAOX with histamine as the substrate in certain renal, adrenal and splenic cell types. While H2O2-production in enterocytes may derive from luminal-borne histamine, i.e., from histamine of foreign origin, the formation of H2O2 in the other cells suggests endogenous (mast cell, basophilborne) histamine as the substrate and H2O2 source.
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PMID:Visualization of hydrogen peroxide (H2O2)-production from histamine. 764 39

Complement-dependent activation of immune cells is regulated by cell surface membrane receptors. In this study, expression of complement receptors (CR) on human blood basophils (n = 11), tissue mast cells (lung, n = 7; skin, n = 10; uterus, n = 4; tonsil, n = 3; heart, n = 10), and on respective human cell lines (basophil line KU-812, mast cell line HMC-1) was analyzed by the use of mAbs and indirect immunofluorescence. Normal blood basophils and KU-812 cells were found to express C5aR (CD88), membrane cofactor protein (CD46), decay-accelerating factor (CD55), and membrane attack complex inhibitory factor (CD59), as well as the previously recognized CR1 (CD35), CR3 alpha (CD11b), CR4 alpha (CD11c), and CR3/4 beta (CD18). Mast cells from all organs as well as HMC-1 cells expressed CD46, CD55, and CD59, but not CD11b, CD21, or CD35. The C5aR (CD88) was detectable on skin mast cells, a subset (5 to 15%) of cardiac mast cells, and on HMC-1 cells, but not on lung, uterus, or tonsillar mast cells (< 5%). Moreover, double immunoperoxidase staining (tryptase vs C5aR/CD88) revealed in situ expression of C5aR on skin, but not lung mast cells. Recombinant human (rh) C5a, at 10(-10) to 10(-7) M, induced secretion of histamine from basophils (rhC5a, 10(-8) M: 53.4 +/- 3.1% vs control < 5%) and from skin mast cells (rhC5a, 10(-8) M: 25.8 +/- 16.1% vs control < 10% histamine release), but not from other mast cells (rhC5a or control: < 10%, p > 0.05). The rhC5a-induced secretion of histamine from basophils and skin mast cells was inhibited by S5/1, a blocking Ab against CD88 (basophils: 37.2% to 75.1%; skin mast cells: 39.2% to 83.9% inhibition, p < 0.05). Together, this study shows that a) basophils and mast cells express a different profile of complement receptors, b) C5a-dependent mediator release in skin mast cells and basophils is mediated via CD88, and c) mast cells constitute a heterogeneous lineage in terms of expression of the C5a binding site CD88.
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PMID:Differential expression of complement receptors on human basophils and mast cells. Evidence for mast cell heterogeneity and CD88/C5aR expression on skin mast cells. 767 28

A total of 409 primary soft-tissue tumors (189 malignant) occurred among 87 of 120 young adult beagles (72.5%) injected with 226Ra in eight dose levels ranging from 0.2-440 kBq kg-1 body mass, while a total of 565 primary soft-tissue tumors (208 of them malignant) were seen among 117 of 133 control beagles not given radioactivity (88%). Because the p-value for the difference in these two percentages was > 0.05, further comparisons were not made of all tumor locations or types taken together but only of the individual tumor locations or types. There was a clear excess of malignant tumors and all tumors (benign plus malignant) in the eye among dogs injected with radium (p < 0.05, p < 0.01, respectively), but the occurrence of all the other types of soft-tissue tumors was not greater in irradiated vs. control dogs (p > 0.05). This was also true for hematopoietic tumor types (including just one leukemia in a control and none in irradiated dogs) in which there was no difference between controls and dogs given radium. The following total tumors (benign plus malignant) occurred in control dogs but not in radium dogs: brain = 3, peritoneum = 1, and pituitary = 4. Malignant tumors other than leukemia appearing in control animals and not among radium dogs were brain = 2, lymph nodes = 1, adrenal = 3, uterus = 1, and pancreas = 5. Tumors that occurred in dogs given radium and not in controls were 3 mast cell sarcomas and 2 tumors of the thymus (1 malignant). Age at first tumor diagnosis for corresponding tumor types did not seem to differ (p > 0.10 or p > 0.05) between radium dogs and controls except for the eye (p < 0.05), with radium dogs being somewhat younger than controls at first diagnosis, at death, or at loss from the colony. Cox regression indicated differences between radium dogs and controls in risk of dying with specific tumors. The following tumors had p values of < 0.05 and risk ratios of > 2.2:eye, mouth (mostly melanomas), and thyroid for malignant tumors and for malignant and benign tumors together. When all sarcomas were considered as a group, there was no difference between controls and radium dogs but there was a difference for all carcinomas taken together, even when mammary tumors and eye tumors were excluded and when eye tumors alone were excluded.
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PMID:Soft-tissue tumors among beagles injected with 226Ra. 810 47

A role for mast cell proteases (RMCP I and II) in the cyclical remodelling of ovarian and uterine tissues of rats was investigated in the oestrous and pregnancy cycles using immunocytochemistry and enzyme-linked immunosorbent assays. The concentrations of RMCP I exceeded that of RMCP II by 100-fold in both tissues, but were always much higher in uteri than ovaries. Most of the protease activity in the uterus was located in the myometrium, whereas it was more focally distributed in the hilus and medulla of the ovary. Protease activity was confined to mast cells identified by metachromatic staining and no single cell contained both proteases. The concentrations of RMCP I and II in the two organs did not fluctuate throughout the 4-day oestrous cycle. Neither were RMCP I concentrations in the uterus altered by administration of diethylstilboestrol to ovariectomized animals, although total amounts per uterus were substantially greater than in the controls. Concentrations of RMCP I were substantially reduced in the uterus after day 6 of pregnancy and rose during the puerperium. The reduction was greater in pregnant than in pseudopregnant horns and tended to be lower in the vicinity of conceptuses than between them. The physiological significance of the lower mast cell protease concentrations is unclear, although their absence may contribute to the decreased protein catabolism during pregnancy.
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PMID:Quantitative and cytochemical studies of mast cell proteases in rat ovaries and uteri in various reproductive states. 841 Aug 27

The results of our recent microscopy studies clearly have demonstrated the constant presence of numerous metachromatic cells in healthy human gingival connective tissue. Despite the great number of studies on mast cell population in many human organs (lung, skin, uterus, and bowel), at the present time few are the studies regarding the morphostructural aspects of mast cells in the human gingiva. The aim of this study was to assess by transmission electron microscopy the presence of mast cells in the healthy human gingiva and to characterize the ultrastructural aspects of mast cells populations. 30 specimens of human gingival tissue were collected from 30 patients with informed consent. The samples were prepared for T.E.M. examination. In all the ultrathin sections observed we detected numerous and ubiquitarious mast cells. These exhibited several morphological types of cytoplasmic granules with characteristic subgranular architectural variety in shape and density. This allowed us to divide mast cells into two groups: cells with granules consisted of compact coiled scrolls, fine granular material and lattice--grafting configuration, and cells containing granules with discrete scrolls formed by more concentric lamellae and particulate structure. The two ultrastructural aspects observed correspond to McTC and McT of the international literature. Therefore in the human gingival connective tissue, like in other organs, two types of mast cells are clearly present. Surprisingly, the human gingival tissue shows, like the lung, McT as the prevailing subpopulation, in contrast to the skin, uterus and gastrointestinal submucosa where McTC prevail.
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PMID:Ultrastructural aspects of two different mast cell populations in human healthy gingival tissue. 872 Mar 75

The urokinase receptor system is involved in several biological processes including extracellular proteolysis, cell invasion, and chemotaxis. Mast cells are multifunctional perivascular cells that play an important role in the regulation of microenvironmental events. We report that primary human mast cells and the human mast cell line HMC-1 express the receptor for urokinase. As assessed by Northern blotting and reverse transcription polymerase chain reaction technique, purified human lung mast cells and HMC-1 cells expressed urokinase receptor mRNA in a constitutive manner. Using a toluidine blue/immunofluorescence double staining technique and monoclonal antibodies, surface expression of urokinase receptor was demonstrable in lung, skin, uterus, heart, and tonsil mast cells, whereas the low density lipoprotein receptor-related protein was not detectable. Binding of monoclonal antibody VIM5 (recognizing the urokinase binding domain of urokinase receptor) to HMC-1 could be blocked by high molecular weight but not low molecular weight urokinase. Binding analyses performed with 123I-urokinase revealed expression of 271,000 +/- 55,000 high affinity urokinase binding sites per HMC-1 cell, with a calculated dissociation constant of 1. 29 +/- 0.3 nM. Purified urokinase induced dose-dependent migration of primary mast cells and HMC-1 in a chemotaxis assay without inducing release of histamine. The mast cell agonist stem cell factor also induced migration of HMC-1 and caused up-regulation of expression of urokinase receptor mRNA. Together, our data show that human mast cells express functional receptors for urokinase. Expression of urokinase receptors on mast cells may have implications for mast cell-dependent microvascular processes associated with fibrinolysis, migration, or local tissue repair.
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PMID:Molecular and functional characterization of the urokinase receptor on human mast cells. 906 47

New sources of human and mouse mast cells, which were isolated from individual organs (i.e., lung, colon, synovium, skin, uterus, heart), developed from progenitors in vitro in the presence of stem cell factor and/or interleukin (IL)-3, or enriched from fetal or adult blood, spleen or bone marrow by cell sorting, have made possible new studies of the cell biology of mast cells. Advances resulting from these new mast cell sources as well as from new methods for labeling specific products in subcellular sites and structures in resting and functional mast cells are the subject of this review. Specific advances discussed are as follows: identification of an Fc epsilonRI+ c-kit- mouse basophil population from bone marrow and spleen that is associated with IL-4 production and an Fc epsilonRI- c-kit- granulated mouse mast cell progenitor in fetal blood; identification of hyperplasia and functional activation of human skin mast cells in vivo when exposed to recombinant stem cell factor and spontaneous degranulation in X-linked immunodeficient mouse mast cells; use of an enzyme-affinity-gold method to detect histamine in mature and immature human mast cell granules, in secretion and recovery of histamine during anaphylactic degranulation of human lung mast cells ex vivo, and in secretion of histamine in vivo by piecemeal degranulation of IL-4 transgenic mouse mast cells in inflammatory eye disease and of human gut mast cells in inflammatory bowel disease; use of immunogold methods to localize cyclooxygenase and tumor necrosis factor-alpha to subcellular structures in human and rat mast cells and to localize the Charcot-Leyden crystal protein in human basophils to aid in the identification of mast cells arising in mixed cellular populations; use of a low-density lipoprotein (LDL)-gold affinity method to demonstrate a rat mast cell granule-mediated uptake of LDL by macrophages in peritoneal fluid.
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PMID:New aspects of mast cell biology. 930 24

Leukemia inhibitory factor (LIF) is a cytokine involved in hematopoiesis, neuropoiesis, and embryogenesis. Transcriptional activation of various genes occurs subsequent to LIF signal transduction in its target cells. Using the mRNA differential display method, a LIF-inducible gene was isolated from LIF-stimulated M1 murine myeloid leukemia cells. By DNA sequencing, this gene turned out to be gp49B1, which has been reported as an inhibitory signaling receptor to attenuate mast cell activation. Because gp49B1 expression was limited to the uterus of a pregnant mouse, its uterine expression was examined especially in relation to LIF expression during pregnancy. gp49B1 was expressed specifically on day 4.0 of pregnancy, as was LIF, and the site of the most abundant expression of LIF and gp49B1 mRNA was the luminal epithelium of the uterine endometrium. These findings suggest that the gp49B1 expression in the uterine endometrium is induced just before implantation by paracrine and/or autocrine effects of LIF. Considering its function as an inhibitory signaling receptor on mast cells, a possible role for gp49B1 on the surface of the uterine endometrium as an immunoreceptor that allows blastocyst attachment is proposed.
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PMID:gp49B1, an inhibitory signaling receptor gene of hematopoietic cells, is induced by leukemia inhibitory factor in the uterine endometrium just before implantation. 933 94

Previous studies have shown that acute, oral administration of malathion modulated the humoral immune response to T cell-dependent antigen, mitogenic responses, macrophage function and mast cell degranulation. In this report, the effects of malathion administration for 90 days on macrophage function, as measured by respiratory burst capacity, phagocytic capability and the production of cathepsin D, and mast cell integrity were assessed. A dose-dependent increase in respiratory burst activity was observed at all doses tested. The production of cathepsin D was elevated at doses of 1 mg/kg/day malathion or greater. The phagocytic capability of peritoneal macrophages was elevated at the dose of 0.1 mg/kg/day, but was suppressed at higher doses. The effect of oral administration of malathion for 90 days on the degranulation of mast cells, in both organs (skin and uterus) and peritoneal lavage fluid, was also assessed. Degranulation (both severe and slight) of mast cells from the skin and peritoneum was observed at a dose of 1.0 mg/kg/day or greater. In addition, the percentage of mast cells that were undegranulated was decreased. In the skin, but not the peritoneum, these effects were dose-dependent. In the uterus, the percentage of mast cells that were undegranulated was decreased and severely degranulated was increased at a dose of 0.1 mg/kg/day or greater. These data indicate that repeated administration of malathion increased macrophage function and led to mast cell degranulation at doses as low as 0.1 mg/kg/day for 90 days.
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PMID:Effect of administration of malathion for 90 days on macrophage function and mast cell degranulation. 938 85

Recent data suggest that distinct metal ions can be released from dental alloys or other biomaterials, and may cause toxic effects on various cells. In this study, the effects of 14 metal ions on histamine release from human blood basophils (n = 4), isolated tissue mast cells (lung n = 8, uterus n = 2, skin n = 1, gingiva n = 1), the basophil cell line KU-812, and the mast cell line HMC-1 were analyzed. Of the 14 metal ions, Ag+ (0.33 mM) and Hg2+ (0.33 mM) were found to induce release of histamine in blood basophils, KU-812, mast cells, and HMC-1. The effects of Ag+ and Hg2+ were dose dependent and were observed within 60 min of incubation. In primary mast cells and basophils, AU3+ (0.33 mM) also induced histamine release, whereas no effects of Au3+ on HMC-1 or KU-812 cells were seen. The other metal ions showed no effects on primary or immortal cells within 60 min. However, Pt4+ (0.33 mM) induced histamine liberation in HMC-1 and lung mast cells after 12 h. The Ag+- and Hg2+-induced rapid release of histamine from HMC-1 was associated with ultrastructural signs of necrosis, but not apoptosis. In contrast, prolonged exposure to Pt4+ (0.33 mM, 14 h) induced apoptotic cell death in HMC-1 cells, as assessed by electron microscopy and DNA analysis. Together, certain metal ions induce distinct cytopathogenic effects in mast cells and basophils. Whereas Ag+, Hg2+, and Au3+ cause direct toxicity, Pt4 causes cell death through induction of apoptosis. Whether such effects contribute to local adverse reactions to metal-containing biomaterials in vivo remains to be determined.
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PMID:Metal ion-induced toxic histamine release from human basophils and mast cells. 949 16


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