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)

Microphthalmic (mi/mi) mice are unpigmented, osteopetrotic, mast cell deficient, and exhibit diminished gastric acid secretion and natural killer cell activity. In order to assess the effect of this mutation on macrophage function, we studied superoxide (O2-) and nitric oxide (NO) production, superoxide dismutase (SOD) activity, phagocytic capacity, and tumor cell killing by peritoneal macrophages from mi/mi mice and normal (+/+) litter mates. Macrophages from mi/mi mice, upon activation with phorbol myristate acetate (PMA), generated significantly higher amounts of O2- than did macrophages from their +/+ litter mates. The phagocyte respiratory burst as assessed by nitroblue tetrazolium (NBT) reduction assay also displayed a 2-fold enhancement in mi/mi macrophages. The assay of SOD activity revealed significantly lower levels in mi/mi macrophages than in the wild type. Furthermore, in comparison with controls, macrophages from mi/mi mice demonstrated significantly higher levels of NO production and increased capacity to lyse tumor cells upon activation with lipopolysaccharide (LPS) or gamma-interferon (IFN-gamma). The mi mutation, therefore, is associated with reduced macrophage SOD activity, increased O2- and NO production, and enhanced capacity for tumor cell killing. The molecular mechanisms for these changes have not been identified.
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PMID:Macrophage function in mice with a mutation at the microphthalmia (mi) locus. 920 63

IFN-gamma regulates various aspects of rodent peritoneal mast cell function, including mediator release, cell growth, TNF-alpha-mediated cytotoxicity, and MHC class II expression. We investigated whether the suppressive action of IFN-gamma on IgE/Ag-mediated degranulation of mast cells is mediated via synthesis of nitric oxide. Incubation of mouse peritoneal cells with L-NMMA, an inhibitor of nitric oxide synthase, or in medium lacking the nitric oxide precursor L-arginine reversed the inhibitory effect of IFN-gamma on Ag-induced serotonin release. Furthermore, the nitric oxide donors sodium nitroprusside and S-nitrosoglutathione inhibited degranulation, and this effect was direct, since it was seen equally on purified and unfractionated mast cells and occurred independently of IFN-gammaR expression. Additional experiments revealed that accessory cells in peritoneal cell populations were the principal target for the action of IFN-gamma and the main source of nitric oxide; the cytokine was more potent on unfractionated compared with purified mast cells, and IFN-gamma induced detectable nitrite production in mixed peritoneal cells, but not in purified mast cells. These studies show that IFN-gamma induces nitric oxide production in peritoneal cell populations, and that synthesized nitric oxide directly inhibits the IgE-mediated secretory function of mast cells. The activation of nitric oxide-producing cells in the tissue microenvironment may be important in the control of mast cell-dependent allergic reactions.
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PMID:Nitric oxide inhibits IgE-mediated degranulation of mast cells and is the principal intermediate in IFN-gamma-induced suppression of exocytosis. 923 42

1. We investigated, by intravital microscopy in rats, the role of the subtypes of adenosine receptors A1 (A1/AR) and A2 (A2AR) in mediating adenosine-induced vasodilatation of second and third order arterioles of the diaphragm. 2. Adenosine, and the A1AR selective agonists R(-)-N6-(2-phenylisopropyl)-adenosine (R-PIA) and N6-cyclo-pentyl-adenosine (CPA) induced a similar concentration-dependent dilatation of diaphragmatic arterioles. The non selective A2AR subtype agonist N6-[2-(3,5-dimethoxyphenyl)-2-(2-methylphenyl) ethyl]adenosine (DPMA) also dilated diaphragmatic arterioles but induced a significantly smaller dilatation than adenosine. By contrast the selective A(2a)AR subtype agonist 2-[p-(2-carboxyethyl)phenyl amino]-5'-N-ethyl carboxamido adenosine (CGS 21680) did not modify diaphragmatic arteriolar diameter. 3. The non selective adenosine receptor antagonist 1,3-dipropyl-8-p-sulphophenylxanthine (SPX, 100 microM) and the selective A1AR antagonist 8-cyclopentyl-1,3-dipropylxanthine (CPX, 50 nM) significantly attenuated adenosine-induced dilatation of diaphragmatic arterioles. By contrast, adenosine significantly dilated diaphragmatic arterioles in the presence of A2AR antagonist 3,7-dimethyl-1-propargylxanthine (DMPX, 10 microM). 4. The dilatation induced by adenosine was unchanged by the mast cell stabilizing agent sodium cromoglycate (cromolyn, 10 microM). 5. The nitric oxide (NO) synthase inhibitor N omega-nitro-L-arginine (L-NOARG, 300 microM) attenuated the dilatation induced by adenosine, and by the A1AR and A2AR agonists. 6. The ATP-dependent K+ channel blocker glibenclamide (3 microM) significantly attenuated diaphragmatic arteriolar dilatation induced by adenosine and by the A1AR agonists R-PIA and CPA. By contrast, glibenclamide did not significantly modify arteriolar dilatation induced by the A2AR agonist DPMA. 7. These findings suggest that adenosine-induced dilatation of diaphragmatic arterioles in the rat is predominantly mediated by the A1AR, via the release of NO and activation of the ATP-dependent K+ channels.
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PMID:Predominant role of A1 adenosine receptors in mediating adenosine induced vasodilatation of rat diaphragmatic arterioles: involvement of nitric oxide and the ATP-dependent K+ channels. 925 14

We evaluated the role of basal nitric oxide (NO) release in the regulation of microvessel permeability under resting conditions. We measured changes in microvessel hydraulic conductivity (Lp) and endothelial cytoplasmic calcium concentration ([Ca2+]i) after application of NO synthase (NOS) inhibitors to the lumen of individually perfused frog mesenteric venular microvessels. NOS inhibitors caused a transient increase in Lp. The mean ratios of peak test Lp values relative to control values in the presence of N omega-nitro-L-arginine methyl ester (L-NAME) at concentrations of 1, 10, and 100 microM were 2.5 +/- 0.6, 2.9 +/- 0.7, and 4.8 +/- 0.4, respectively. N omega-monomethyl-L-arginine (L-NMMA) showed a similar effect and a biologically inactive isomer of L-NMMA, D-NMMA, showed no effect. These results demonstrate that basal levels of NO play a role in modulating microvessel permeability different from that due to NO produced in response to inflammatory agents. In the activated state NOS inhibitors attenuated the increased microvessel permeability in response to ionomycin and ATP [P. He, B. Liu, and F. E. Curry. Am. J. Physiol. 272 (Heart Circ. Physiol. 41): H176-H185, 1997]. The transient increase in basal permeability induced by NOS inhibitors was not accompanied by an increase in endothelial cell [Ca2+]i and did not require the presence of extracellular calcium. Application of ketotifen, a mast cell stabilizer, and an iron-chelating reagent, deferoxamine mesylate, attenuated the transient increase in Lp induced by L-NMMA, suggesting that basal NO may have an important antioxidant role in regulating normal permeability.
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PMID:Effect of nitric oxide synthase inhibitors on basal microvessel permeability and endothelial cell [Ca2+]i. 927 92

Relaxin was previously shown to cause coronary vasodilation and to inhibit mast cell activation through a stimulation of endogenous nitric oxide production. This suggests that relaxin may have beneficial effects on ischemia-reperfusion-induced myocardial injury, which is triggered by endothelial damage and impaired nitric oxide generation. In this study, we tested the effect of relaxin on isolated and perfused guinea pig hearts subjected to ischemia and reperfusion. Ischemia was induced by ligature of the left anterior descending coronary artery; removal of the ligature induced reperfusion. Relaxin, at the concentration of 30 ng/ml of perfusion fluid, causes: a significant increase in coronary flow and in nitric oxide generation; a significant decrease in malonyldialdehyde production and in calcium overload, both markers of myocardial injury; an inhibition of mast cell granule exocytosis and histamine release, which are known to contribute to myocardial damage; a reduction of ultrastructural abnormalities of myocardial cells; an improvement of heart contractility. The beneficial effects of relaxin were blunted by the NO synthase inhibitor L-NMMA. The current study provides first experimental evidence that relaxin has a powerful protective effect on the heart undergoing ischemia and reperfusion acting through a nitric oxide-driven mechanism.
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PMID:Relaxin counteracts myocardial damage induced by ischemia-reperfusion in isolated guinea pig hearts: evidence for an involvement of nitric oxide. 934 98

Dietary copper has long been known to be essential for cardiovascular homeostasis. However, the role of copper and cuproenzymes in the normal control of vascular physiology is not well understood. Most studies in the cardiovascular system have focused on copper deficiency-induced defects in the heart or large vessels. Recently, attention has also focused on the effects of copper deficiency in the microcirculation or the small blood vessels that control blood flow, nutrient and waste exchange, and peripheral vascular resistance. Studies in the microcirculation demonstrate that copper is important in mechanisms of macromolecular leakage, platelet-endothelial interactions and vascular smooth muscle reactivity. There is a significantly greater leakage of proteins from postcapillary venules in copper-deficient rats in response to mast cell-released histamine. This response appears to be the result of increased numbers of mast cells and thereby increased available histamine. Copper deficiency also causes an inhibition of in vivo thrombogenesis, which appears to be related to an inhibition of platelet adhesion. Subsequent studies have demonstrated that this is probably caused by a diminished concentration of the adhesion molecule von Willebrand factor. Nitric oxide (NO)-mediated arteriole vasodilation is also compromised in copper-deficient rats. This functional deficit to NO can be reversed by the addition of Cu, Zn-superoxide dismutase (SOD), suggesting that degradation of NO by superoxide anion occurs during copper deprivation. These observations demonstrate that dietary copper is necessary for several microvascular control mechanisms affecting inflammation, microhemostasis and regulation of peripheral blood flow.
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PMID:Dietary copper in the physiology of the microcirculation. 940 74

Mast cells are involved in atopic disorders, often exacerbated by stress, and are located perivascularly close to sympathetic and sensory nerve endings. Mast cells are activated by electrical nerve stimulation and millimolar concentrations of neuropeptides, such as substance P (SP). Moreover, acute psychological stress induces CRH-dependent mast cell degranulation. Intradermal administration of rat/human CRH (0.1-10 microM) in the rat induced mast cell degranulation and increased capillary permeability in a dose-dependent fashion. The effect of CRH on Evans blue extravasation was stronger than equimolar concentrations of the mast cell secretagogue compound 48/80 or SP. The free acid analog of CRH, which does not interact with its receptors (CRHR), had no biological activity. Moreover, systemic administration of antalarmin, a nonpeptide CRHR1 antagonist, prevented vascular permeability only by CRH and not by compound 48/80 or SP. CRHR1 was also identified in cultured leukemic human mast cells using RT-PCR. The stimulatory effect of CRH, like that of compound 48/80 on skin vasodilation, could not be elicited in the mast cell deficient W/Wv mice but was present in their +/+ controls, as well as in C57BL/6J mice; histamine could still induce vasodilation in the W/Wv mice. Treatment of rats neonatally with capsaicin had no effect on either Evans blue extravasation or mast cell degranulation, indicating that the effect of exogenous CRH in the skin was not secondary to or dependent on the release of neuropeptides from sensory nerve endings. The effect of CRH on Evans blue extravasation and mast cell degranulation was inhibited by the mast cell stabilizer disodium cromoglycate (cromolyn), but not by the antisecretory molecule somatostatin. To investigate which vasodilatory molecules might be involved in the increase in vascular permeability, the CRH injection site was pretreated with the H1-receptor antagonist diphenhydramine, which largely inhibited the CRH effect, suggesting that histamine was involved in the CRH-induced vasodilation. The possibility that nitric oxide might also be involved was tested using pretreatment with a nitric oxide synthase inhibitor that, however, increased the effect of CRH. These findings indicate that CRH activates skin mast cells at least via a CRHR1-dependent mechanism leading to vasodilation and increased vascular permeability. The present results have implications for the pathophysiology and possible therapy of skin disorders, such as atopic dermatitis, eczema, psoriasis, and urticaria, which are exacerbated or precipitated by stress.
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PMID:Corticotropin-releasing hormone induces skin mast cell degranulation and increased vascular permeability, a possible explanation for its proinflammatory effects. 942 40

The dual radiolabeled monoclonal antibody technique was used to 1) define the magnitude and kinetics of P-selectin expression in murine small intestine exposed to ischemia-reperfusion (I/R), and 2) determine the factor(s) responsible for initiating this response. Within 10 min after release of a 20-min arterial occlusion, intestinal P-selectin expression increased two- to threefold compared with control values. Peak (4-fold) expression of P-selectin was noted at 5 h after reperfusion, returning to the control value at 24 h. The early (10-30 min) I/R-induced upregulation of P-selectin appears to reflect mobilization of a performed pool of the adhesion molecule, whereas the later (5 h) rise appears to be transcription dependent. The early increase in P-selectin expression was not inhibited by pretreatment with either oxypurinol (inhibits xanthine oxidase), diphenhydramine (H1-receptor antagonist), or MK-571 (leukotriene C4/D4 antagonist), nor was it blunted in transgenic mice expressing three times the normal level of copper-zinc superoxide dismutase or in mast cell-deficient mice. However, significant inhibition was noted after treatment with either MK-886 (5-lipoxygenase inhibitor) or a nitric oxide (NO) donor (diethylenetriamine/NO). These findings indicate that the early I/R-induced increase in intestinal P-selectin expression is mediated by a 5-lipoxygenase-dependent NO-inhibitable mechanism.
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PMID:Modulation of P-selectin expression in the postischemic intestinal microvasculature. 943 58

The stomach normally responds to mucosa-damaging agents by decreasing acid secretion, but this acid response turn from "inhibition" into "stimulation" when the production of nitric oxide (NO) is inhibited by NG-nitro-L-arginine methyl ester (L-NAME). We investigated the mechanism underlying stimulation of acid secretion in the stomach after damage with taurocholate (TC) in the presence of L-NAME. A rat stomach was mounted in an ex vivo chamber and perfused with saline, and the potential difference (PD), luminal pH, and acid secretion were measured before and after application of 20 mM TC for 30 min. Exposure of the stomach to TC caused a reduction in PD, an increase in luminal pH, and a decrease in acid secretion. Pretreatment with L-NAME did not affect basal acid secretion but significantly increased secretion after damage with TC, without any effect on PD. This effect of L-NAME was antagonized by co-administration of L-arginine but not D-arginine. The luminal appearance of NO was also increased after exposure of the stomach to TC, a phenomenon completely blocked by L-NAME, or when EGTA was applied together with TC. The enhanced acid secretory response in the presence of L-NAME was inhibited by prior administration of cimetidine, FPL-52694 (a mast cell stabilizer), spantide (a substance P antagonist), or by chemical ablation of capsaicin-sensitive sensory neurons. Mucosal exposure to TC increased histamine output in the lumen and decreased the number of mucosal mast cells in the stomach. These changes were prevented by FPL-52694 or sensory neuronal ablation. These results suggest that (a) damage in the stomach may activate acid stimulation in addition to an NO-dependent inhibitory mechanism but that the latter effect overcomes the former, resulting in a decrease in acid secretion, (b) acid stimulation in the damaged stomach may be mediated by histamine released from the mucosal mast cells, a process that may interact with capsaicin-sensitive sensory nerves, and (c) L-NAME unmasks the acid stimulatory response by suppressing the inhibitory mechanism.
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PMID:Nitric oxide, histamine, and sensory nerves in the acid secretory response in rat stomach after damage. 947 25

This study was designed to investigate whether anti-IgE-induced or ionophore A23187-induced histamine release from human basophils is regulated by exogenous nitric oxide (NO), and to assess some similarities between the effect of NO on basophils and that on rat peritoneal mast cells (RPMC). The NO donor, sodium nitroprusside (SNP), inhibited A23187-induced histamine release from crude human basophils and crude RPMC in a dose-dependent fashion. This downregulation was still observed when SNP was washed out just before the cell stimulation, indicating that the effect of SNP was irreversible. The downregulation disappeared in both purified cell populations after the removal of contaminating cells. However, when purified cells were preincubated with SNP in the presence of 5 mM N-acetylcysteine (NAC), increasing the bioavailability of NO, the downregulation was recovered. The presence of NAC significantly augmented the downregulation of SNP on A23187-induced histamine release from both crude cell populations. In contrast, SNP had no effect on anti-IgE-induced histamine release from either crude or purified basophil preparation in the absence of NAC, and SNP plus NAC inhibited anti-IgE-induced histamine release from both cell preparations. The same results were obtained with crude and purified RPMC preparations under the same conditions. These results show that SNP similarly downregulated exocytosis of basophils and RPMC, and acquired the potent effect in the presence of NAC, indicating that exogenous NO plays a part in the regulation of basophil and mast cell activation.
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PMID:Exogenous nitric oxide regulates the degranulation of human basophils and rat peritoneal mast cells. 948 1


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