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)

Mast cells are traditionally associated with an acute response involving the short-term release of mediators such as histamine. We have shown previously that mast cells can produce IL-6 without prior histamine release. In this study we examined the hypothesis that mast cell IL-6 production can be selectively regulated by PGs. Highly purified rat peritoneal mast cells were cultured in the presence of PGE1, PGE2, or PGD2 alone or in combination with anti-IgE or bacterial LPS. Histamine release was assessed after 10 min; IL-6 and TNF-alpha production was measured in supernatants after 18 h. Mast cell IL-6 production was induced by PGE1 and PGE2 to a similar level to that observed in anti-IgE-activated cells. In contrast, constitutive production of TNF-alpha was inhibited by PGE1 and PGE2, but not by PGD2. PGE2 had a synergistic effect, inducing IL-6 in the presence of LPS, whereas an additive effect was observed in the presence of anti-IgE. None of the prostanoids alone induced significant histamine release at the 10-min time point. However, PGE2 significantly increased histamine release when added concurrently with anti-IgE. Flurbiprofen in the context of anti-IgE or LPS activation did not alter mast cell IL-6 or TNF-alpha production. IL-6 production in response to each of the stimuli was significantly inhibited by the corticosteroid dexamethasone. These observations of selective modulation of mast cell cytokine production are important to understand the mechanisms by which mast cells interact with other cells during an inflammatory process involving prostanoid synthesis.
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PMID:Prostanoid enhancement of interleukin-6 production by rat peritoneal mast cells. 753 79

To study cytokine regulation of the 5-lipoxygenase (5-LO)/leukotriene (LT) synthase pathway we have developed mouse bone marrow-derived mast cells (BMMC) that minimally express each protein of the pathway by using a novel culture system, lacking interleukin (IL)-3. When mouse bone marrow cells were cultured for 5 weeks with 100 ng/ml c-kit ligand (KL) and 10 units/ml IL-10, a population of > 95% mast cells was obtained. These cells generated 8.3 +/- 4.5 ng of LTC4/10(6) cells and 8.1 +/- 2.4 ng of prostaglandin (PG) D2/10(6) cells after IgE-dependent activation. When these BMMC were cultured for 2-5 weeks more with 100 units/ml IL-3 in the continued presence of KL and IL-10, the IgE-dependent generation of LTC4 and PGD2 increased to 212 +/- 36 and 25.5 +/- 8.6 ng/10(6) cells, respectively. The dramatic increase in the IgE-dependent generation of LTC4 in response to IL-3 was accompanied by a concomitant increase in expression of 5-LO and 5-LO-activating protein and preceded the increased expression of cytosolic phospholipase A2 and LTC4 synthase. The recognition that IL-3 up-regulates the expression of each protein of the 5-LO pathway for the generation of LTC4 contrasts with our recent finding that KL up-regulates the expression of cytosolic phospholipase A2, prostaglandin endoperoxide synthase-1, and hematopoietic PGD2 synthase and increases the IgE-dependent generation of PGD2 in BMMC developed from bone marrow with IL-3. Thus, developmentally segregated regulation of the prostanoid and cysteinyl leukotriene pathways in lineage-related committed mast cell progenitors reveals the pleiotropism of this effector cell of allergic inflammation, a cytokine/growth factor basis for preferential expression of pathways of eicosanoid biosynthesis, and the particular role of IL-3 in regulating the expression of the proteins of the 5-LO/LTC4 synthase pathway.
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PMID:Interleukin-3 regulates development of the 5-lipoxygenase/leukotriene C4 synthase pathway in mouse mast cells. 755 81

H1-blockers may have antiallergic properties which cause the blocking of eicosanoid release, and the effect of these drugs may differ according to the phenotype of mast cells. This study examined the ability of terfenadine and cetirizine to inhibit the release of arachidonic acid-derived mediators from human lung and colon cells. Dispersed cells were challenged with anti-IgE in the presence or absence of 10 microM of terfenadine or cetirizine, and the release of prostaglandin (PG)D2 and leukotriene (LT)C4/D4 was assessed by enzyme immunoassay (EIA). Terfenadine caused significant inhibition of both PGD2 and LTC4/D4 (49 +/- 9 and 29 +/- 19%, respectively) from human lung cells but had a less marked effect on PGD2 release from human colon cells (21 +/- 9% for PGD2 and 18 +/- 9% for LTC4/D4). In contrast, although cetirizine caused significant inhibition of both mediators measured in lung cells (38 +/- 16% for PGD2 and 34 +/- 19% for LTC4), it did not cause any significant inhibition of either mediator from human colon cells. These findings suggest that H1-antagonists may have additional properties, and the differential effects of cetirizine on lung and colon tissue may indicate differences in mast cell phenotype.
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PMID:Pharmacologic heterogeneity of human lung and colon cells: effect of terfenadine and cetirizine. 757 21

Metabolism of arachidonic acid was studied in the unique human mast cell line HMC-1. By HPLC and/or gas chromatography mass spectrometry (GC-MS), 19 oxygenated metabolites were identified, including monohydroxy acids, leukotrienes, prostaglandins, and thromboxane. Intact cells incubated with the calcium ionophore A23187 and arachidonic acid expressed 5-lipoxygenase activity and produced 5-hydroxyeicosatetraenoic acid (5-HETE) as the major metabolite (745 pmol/10(7) cells) followed by leukotriene (LT) C4 (245 pmol/10(7) cells) and 11-trans-LTC4 (74 pmol/10(7) cells). Low but clearly detectable levels of LTB4 were also observed. The total amounts of 5-LO products were comparable to those obtained with RBL-1 cells and corresponded to approx. 30% of the levels obtained with isolated human polymorphonuclear leukocytes. Time-course experiments revealed that HMC-1 cells contained the enzyme activities required to metabolize LTC4 into LTD4 and further into LTE4. The profile of prostanoids included, prostaglandin (PG) E2, PGF2 alpha, and PGD2, whereas 6-keto-PGF1 alpha, reflecting prostacyclin formation, could not be detected. Furthermore, we were able to unambiguously establish that HMC-1 cells could produce substantial amounts of thromboxane (TX) A2, measured as TXB2 (0.1-2.2 nmol/10(7) cells). Generation of TXA2 in such quantities, exceeding those of LTC4, suggests that mast cells may be an important source of thromboxane and points to a possible role for these cells in hemostasis and thrombosis. After approx. 10 passages in culture, 5-lipoxygenase activity in HMC-1 cells drastically declined concomitantly with changes in growth behavior and cell morphology. Analysis by Northern and Western blots revealed that loss of 5-lipoxygenase activity correlated well with a reduced 5-lipoxygenase gene expression at both a transcriptional and translational level. This loss of enzyme activity and gene expression may be related to a genetic abnormality propagated in HMC-1 cells, i.e., a 10;16 translocation, which thus involves the chromosome containing the 5-lipoxygenase gene.
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PMID:Arachidonic acid metabolism in the human mast cell line HMC-1: 5-lipoxygenase gene expression and biosynthesis of thromboxane. 759 81

Activation of MMC-34 cells, a murine mast cell line, or bone marrow-derived mast cells by aggregation of IgE cell surface receptors or addition of calcium ionophore stimulates prostaglandin (PG) D2 synthesis and secretion. An initial rapid burst of PGD2 synthesis, complete within 30 min, is followed by a slower subsequent production of PGD2 that reaches a maximum 4 to 8 h after activation in MMC-34 cells. PG synthase 1 (PGS-1) message and protein are expressed constitutively in MMC-34 cells and are not modulated by exposure to calcium ionophore or aggregation of IgE receptors. In contrast, activation of MMC-34 or bone marrow-derived mast cells induces expression of the PG synthase 2 (PGS-2) gene. PGS-2 induction following mast cell activation is blocked by dexamethasone. The initial PGD2 burst in activated MMC-34 cells is prevented by aspirin pretreatment, suggesting that constitutive PGS-1 present in mast cells before activation is responsible for the early PGD2 production in response to activation. In contrast, the later phase of PGD2 production is blocked by dexamethasone, cycloheximide, or NS-398, a PGS-2-specific nonsteroidal anti-inflammatory drug that inhibits PGS-2 enzyme activity but not PGS-1 activity. These data demonstrate that mast cell activation results 1) in the induction of PGS-2 gene expression, and 2) in both PGS-1-dependent PGD2 synthesis and PGD2 synthesis that is dependent on the activation-induced synthesis and activity of PGS-2.
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PMID:Prostaglandin synthase 1 and prostaglandin synthase 2 both participate in activation-induced prostaglandin D2 production in mast cells. 760 59

We previously established a system for induction of mucosal-type mast cells from mouse spleen cells by long term culture without exogenous IL-3. FCS was important and was able to be divided into mast cell-inducible and non-mast cell-inducible sera. LPS contaminated in FCS was responsible for the mast cell induction. However, we unexpectedly found that both supernatants recovered from the cultures with mast cell-inducible and non-mast cell-inducible sera contained endogenous IL-3. Furthermore, addition of rIL-3 to the cultures with non-mast cell-inducible sera had no effect or induced only a small number of mast cells. This indicates that IL-3 alone is not enough for mast cell induction and that some inflammatory factor(s) induced by LPS is also essential. Prostaglandin E1 (PGE1) and PGE2 induced mast cells in a dose-dependent manner when added into the cultures. The activity of LPS for mast cell induction was inhibited by indomethacin. However, indomethacin failed to inhibit the mast cell induction by exogenous PGE. Exogenous PGE antagonized the indomethacin-induced inhibition of mast cell induction by LPS. Cholera toxin and dibutyryl cyclic AMP (cAMP) also induced mast cells. The A and B subunits of cholera toxin, PGF2 alpha, PGD2, and dibutyryl cGMP failed to induce mast cells. Furthermore, mast cell induction by PGE was dose-dependently suppressed by inhibitors for cAMP-dependent A kinase. The above results show that for mast cell induction, IL-3 needs the cooperation of PGE or other stimulants that can elevate the production of the second messenger cAMP in mast cell precursors.
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PMID:An essential role of prostaglandin E on mouse mast cell induction. 763 61

The reactivity of ocular mast cells is poorly characterized in man. Provocation tests with codeine phosphate, a molecule known to activate connective tissue mast cells, were performed in ten normal subjects. Ten-fold increasing concentrations of codeine phosphate (10(-5) to 10(-1) mg/mL) were tested in both eyes until a positive challenge was observed. Schirmer strips were placed under the eyelid and left for five minutes. A negative control was performed ten days later. All subjects had a strongly positive reaction for the same codeine phosphate concentration (10(-1) mg/mL). Histamine was released in 8/10 subjects (control: 7.06 +/- 4.19 nM/L, codeine phosphate: 18.2 +/- 15.7 nM/L, P < .018), PGD2 was released in 8/10 subjects (control: 0 codeine phosphate: 273.3 +/- 408.9 ng/L). Disodium cromoglycate blocked the release of histamine and PGD2. Codeine phosphate is potent at causing mast cell activation in the eye and this effect is blocked by disodium cromoglycate.
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PMID:Conjunctival provocation tests with codeine phosphate. Effect of disodium cromoglycate. 768 4

A study was performed about the effects of increasing concentrations of muscle relaxants (suxamethonium, d-tubocurarine, vecuronium, and atracurium), hypnotics (propofol, ketamine, and thiopental), opioids (morphine, buprenorphine, and fentanyl), and benzodiazepines (diazepam, flunitrazepam, and midazolam) on the release of preformed (histamine and tryptase) and de novo synthesized (prostaglandin D2: PGD2 and peptide-leukotriene C4: LTC4) chemical mediators from human basophils and mast cells isolated from skin (HSMC), lung parenchyma (HLMC) and heart tissue (HHMC). None of the drugs tested induced the release of histamine or LTC4 from basophils of normal donors. Suxamethonium did not induce mediator release from any type of human mast cell tested. Only the highest concentration of d-tubocurarine used caused histamine release from HSMC and HLMC. Atracurium, more than vecuronium, induced concentration-dependent histamine release from HSMC and HLMC. Propofol induced a concentration-dependent histamine release from HLMC, but not from HHMC. Only the highest concentrations of ketamine and thiopental used caused a significant release of histamine from HLMC. The muscle relaxants and hypnotics examined did not induce any de novo synthesis of PGD2 or LTC4 in mast cells. Morphine only induced histamine and tryptase release from HSMC, but not the de novo synthesis of PGD2. In contrast, buprenorphine caused histamine and tryptase release from HLMC, and not from HSMC, whilst it also induced de novo synthesis of PGD2 and LTC4 in HLMC. Fentanyl did not give any histamine and tryptase release from mast cells. Diazepam and flunitrazepam only induced a small release of histamine from mast cells, whereas midazolam caused the release of histamine from HLMC. The biochemical pathways underlying the release of mediators from human mast cells induced by drugs used during general anaesthesia are different from those underlying the immune release of histamine. From the results obtained with the in vitro model described here, it is clear that new drugs promising for the anesthesiologic arena should be tested in vitro before their potential histamine-releasing activity is experienced in vivo.
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PMID:Mechanisms of activation of human mast cells and basophils by general anesthetic drugs. 769 Feb

The influence of specific antigen challenge on the excitability of C-cells in nodose ganglia isolated from actively sensitized guinea pigs was evaluated using intracellular recording techniques. Antigen (ovalbumin) caused a significant depolarization (approximately 8 mV) of the resting membrane potential. Antigen exposure had differing effects on the membrane input impedance; decreasing it in 15 neurons, increasing it in 6 neurons, and having no effect in 8 neurons. About 20% of guinea pig nodose C-cells reveal a long-lasting after-spike hyperpolarization (AHPslow). Antigen challenge reversibly blocked the AHPslow in 4 of 18 neurons studied in 18 ganglia. About 30% of the nodose ganglion neurons display a time- and voltage-dependent inward rectification at membrane potentials more negative than -75 mV. Exposing the ganglion to the sensitizing antigen consistently blocked this response in 8 of 8 neurons. Histological assessment of toluidine blue stained cells revealed that the nodose ganglion contained approximately 100 mast cells. Exposing the ganglion to ovalbumin stimulated mast cell degranulation, as measured by a decrease in number of stained cells, and evoked the release of histamine, PGD2, and immunoreactive peptidoleukotrienes from the tissue. The results support the hypothesis that endogenous inflammatory mediators released during the immediate hypersensitivity (allergic) reactions can modulate the excitability of primary C-fiber afferents. Mechanisms underlying antigen-induced neuromodulation of these neurons include depolarization of the resting membrane potential, changes in membrane resistance, blockade of a time- and voltage-dependent anomalous rectifier, and, in some cells, blockade of the AHPslow.
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PMID:Immunologically induced neuromodulation of guinea pig nodose ganglion neurons. 769 18

A series of cases of sudden unexpected post-neonatal deaths from two centres in the UK have been investigated for evidence of mast cell activation using the biochemical markers tryptase and 9 alpha,11 beta-PGF2. Tryptase was selected as a possible marker because it is a component of mast cell secretory granules and, unlike histamine, it is not released from basophils. The prostaglandin 9 alpha,11 beta-PGF2 is an initial and pharmacologically active metabolite of PGD2, the major mast cell-derived cyclooxygenase product. This prostaglandin was chosen to serve as a marker of newly generated mediator release. In the study, unexplained infant deaths were associated with a higher concentration of tryptase in serum compared with cases of unexpected, but subsequently explained death. However, 9 alpha,11 beta-PGF2 was found to be an unsuitable post mortem marker in this situation. These results provide direct evidence that mast cell degranulation, possibly as a result of anaphylaxis, may be occurring around the time of death in some cases of cot death.
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PMID:The anaphylaxis hypothesis of sudden infant death syndrome (SIDS): mast cell degranulation in cot death revealed by elevated concentrations of tryptase in serum. 788 24


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