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)

Changes in the populations of neurotransmitter receptors involved in the control of intestinal smooth muscle function have been associated with the altered motility of the inflamed gut. Thus, trinitrobenzenesulphonic acid (TNBS)-induced gut inflammation is accompanied by an increase in alpha- and a decrease in beta-adrenoceptor numbers in guinea pig small intestine. In the present study, we investigated the effects of anti-inflammatory compounds (cyclooxygenase inhibitor indomethacin, lipooxygenase inhibitor MK-886, nitric oxide synthase inhibitor NG-nitro-L-arginine methylester (L-NAME), mast cell stabilizer doxantrazole) on TNBS-induced adrenoceptor changes. Smooth muscle adrenoceptor populations, labelled by subtype-specific radioligands 6 days after TNBS, were significantly different from those of sham-treated controls: alpha 1- and alpha 2-adrenoceptor numbers increased by more than 50%, while beta-adrenoceptor numbers decreased by more than 50%. These changes, associated with severe inflammation as assessed histologically and by myeloperoxidase assay, were prevented by doxantrazole or L-NAME, and only partly by MK-886. In contrast, indomethacin did not prevent these changes. It appears then that: (a) mast cell mediators, nitric oxide and leukotrienes are likely to contribute to TNBS-induced changes in adrenoceptor populations in the guinea pig inflamed intestine; (b) there is no evidence for prostanoid involvement in this process. It was suggested that changes in smooth muscle adrenoceptor populations may be an important mechanism by which gut inflammation alters intestinal motility.
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PMID:Evidence for mast cell, leukotriene and nitric oxide involvement in the regulation of the adrenoceptor number of inflamed small intestine in guinea pigs. 853 63

Gastric actions of Nw-nitro-1-arginine methyl ester (L-NAME) were investigated in rats, as this agent is a reliable nitric oxide synthase inhibitor L-NAME solutions were placed in subcutaneous osmotic minipumps which continuously released L-NAME at 0.1, 1.0, 10, or 40 mg/kg/day. L-NAME dose and time-dependently enhanced stress-induced gastric ulceration but did not affect mucosal mast cell population. Ulcerogenic actions of L-NAME were reversed by L-arginine but not by D-arginine. Ten L-NAME treatment also enhanced the ethanol-induced gastric mucosal damage, depressed gastric mucosal blood flow but did not alter gastric mucus, secretory volume, or acid output. It is concluded that in the present models, chronic nitric oxide synthase inhibition enhanced ulcerogenesis by decreasing mucosal resistance due to reduced mucosal blood perfusion. This implicates nitric oxide as a mucosal defense factor which acts in part by maintaining mucosal blood flow.
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PMID:Effects of chronic nitric oxide synthase inhibition in cold-restraint and ethanol-induced gastric mucosal damage in rats. 862 50

To examine the role of endogenous nitric oxide in allergic airway inflammation, we investigated the effect of a nitric oxide synthase inhibitor, N omega-nitro-L-arginine methyl ester (l-NAME), on antigen-induced airway microvascular leakage in actively sensitized guinea pigs by using Evans blue dye. Three weeks after sensitization with ovalbumin (10 micrograms), the tracheas were cannulated, and lungs were artificially ventilated. Animals were pretreated with atropine and propranolol (both 1 mg/kg, intravenously) to avoid neural modification. Ovalbumin inhalation (3 mg/ml, 1 minute) challenge caused significant microvascular leakage in all airways portions, which was significantly suppressed in a dose-dependent manner by pretreatment with intravenous injection of L-NAME (1 and 10 mg/kg) but not with the inactive enantiomer D-NAME (10 mg/kg). This inhibition by L-NAME was significantly reversed by co-administration of L-arginine (100 mg/kg, intravenously). Pretreatment with a vasoconstrictor, phenylephrine (20 micrograms/kg, intravenously), had no inhibitory effects on antigen-induced airway microvascular leakage despite increasing systemic blood pressure. Inhalation of representative mast cell-derived mediators, histamine (2 mg/ml, 1 minute) or leukotriene D4 (5 micrograms/ml, 1 minute), produced significant microvascular leakage in all airways. L-NAME (10 mg/kg, intravenously) partially but significantly inhibited leukotriene D4-induced leakage, whereas histamine-induced leakage was not affected. These results suggest that endogenous nitric oxide acts to increase airway microvascular leakage after airway allergic reaction.
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PMID:Endogenous nitric oxide modifies antigen-induced microvascular leakage in sensitized guinea pig airways. 876 28

Mast cells are pleiotropic bone marrow-derived cells found in mucosal and connective tissues and in close apposition to neurons, where they play important roles in tissue inflammation and in neuroimmune interactions. Connective tissue mast cells, with which intracranial mast cells share many characteristics, contain cytokines that can cause inflammation. Here, we report that myelin basic protein, a major suspected immunogen in multiple sclerosis, as well as an antigenic stimulus, provokes mast cells to trigger a delayed cytotoxicity for neurons in mixed neuron-gila cultures from hippocampus. Neurotoxicity required a prolonged period (12 h) of mast cell incubation, and appeared to depend largely on elaboration of the free radical nitric oxide by astrocytes. Activation of astrocytes was mediated, in part, by mast cell-secreted tumor necrosis factor-alpha. Myelin basic protein and 17 beta-estradiol had a synergistic action on the induction of mast cell-associated neuronal injury. The cognate mast cell line RBL-2H3, when subjected to an antigenic stimulus, released tumor necrosis factor-alpha which, together with exogenous interleukin-1 beta (or interferon-gamma), induced astroglia to produce neurotoxic quantities of nitric oxide. A small but significant proportion of mast cell-derived neurotoxicity under the above conditions occurred independently of glial nitric oxide synthase induction. Further, palmitoylethanolamide, which has been reported to reduce mast cell activation by a local autacoid mechanism, decreased neuron loss resulting from mast cell stimulation in the mixed cultures but not that caused by direct cytokine induction of astrocytic nitric oxide synthase. These results support the notion that brain mast cells could participate in the pathophysiology of chronic neurodegenerative and inflammatory diseases of the nervous system, and suggest that down-modulation of mast cell activation in such conditions could be of therapeutic benefit.
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PMID:Mast cell activation causes delayed neurodegeneration in mixed hippocampal cultures via the nitric oxide pathway. 876 79

There is growing evidence that endogenous nitric oxide (NO) regulates mucosal barrier integrity under physiological conditions and counters the increase in mucosal permeability associated with acute pathophysiological states. The potential mechanisms of action for the protective effects of NO are discussed. These include maintenance of blood flow, inhibition of platelet and leukocyte adhesion and/or aggregation within the vasculature, modulation of mast cell reactivity, and scavenging of reactive oxygen metabolites such as superoxide. On the basis of the data presented, we conclude that both constitutive nitric oxide synthase (cNOS)-derived endogenous NO and exogenous NO (from NO donors) appear to reduce the sequelae of acute inflammation. The second section of this review summarizes the data germane to prolonged (chronic) inflammatory conditions associated with the overproduction of NO from the inducible form of NOS (iNOS). Some emphasis is placed on the role of NO in sepsis and inflammatory bowel disease (IBD), and data to suggest that NO, or more specifically a NO-derived mediator, is involved in these disorders are summarized. These studies are compared with recent publications suggesting that inhibition of NO synthesis with nonspecific inhibitors of NOS or selective iNOS inhibitors may not protect in models of sepsis or IBD. Overall, the review highlights the potential importance of the type of NOS enzyme involved in the particular inflammatory process being studied.
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PMID:A critical role for nitric oxide in intestinal barrier function and dysfunction. 877 63

Nitric oxide (NO) synthesis inhibition causes neutrophil adhesion to endothelium via a mast cell- and oxidant-dependent mechanism. The objective of this study was to delineate the cascade of events in the mast cell- and oxidant-induced neutrophil-endothelium interactions after NO synthesis inhibition. Mast cells were isolated and purified from the rat peritoneal cavity and coadministered with neutrophils to wells of endothelium. This system was treated with an NO synthesis inhibitor (NG-nitro-L-arginine methyl ester; L-NAME) for 60 minutes. L-NAME did not induce neutrophil-endothelium interactions in the absence of mast cells, but the addition of mast cells in a ratio as low as 1:50 mast cells to neutrophils was sufficient to induce a large increase in neutrophil adhesion to endothelium within 20 to 25 minutes. L-arginine, NO donors, and 8-bromo-cGMP reversed the L-NAME effect, whereas NG-nitro-D-arginine methyl ester alone had no proadhesive effect. The adhesion was inhibited by an anti-CD18 or an anti-intracellular adhesion molecule-1 antibody and a platelet-activating factor-receptor antagonist. Inhibition of NO in isolated endothelial monolayers induced oxidant release (reduction of cytochrome C) into extracellular fluid. The endothelium-derived superoxide contributed to the mast cell-induced adhesion, inasmuch as the extracellular antioxidant superoxide dismutase reduced the neutrophil adhesion response as did disruption of endothelial function. There was some direct activation of mast cells with L-NAME (independent of endothelium) inasmuch as intracellular calcium and oxidative stress increased within mast cells after L-NAME treatment, and this translated into increased neutrophil adhesion to nonendothelial substrata. These data demonstrate that depletion of NO increases oxidative stress within mast cells and endothelium and together these events promote neutrophil adhesion within the vasculature.
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PMID:A balance between nitric oxide and oxidants regulates mast cell-dependent neutrophil-endothelial cell interactions. 888 91

The role of prostaglandins as mediators of gastrointestinal mucosal defence has been recognized for more than two decades. However, there is renewed interest in the potent actions of this group of fatty acids in modulating the mucosal immune system and inflammatory responses. Moreover, there is a rapidly growing body of evidence that nitric oxide is another important mediator of mucosal defence and the mucosal immune system. In this review, the effects of prostaglandins and nitric oxide on specific aspects of mucosal immunocyte function (e.g., mast cell reactivity) are reviewed, as is the evidence that these two groups of endogenous mediators cooperate in the modulation of mucosal defence.
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PMID:Cooperative modulation of gastrointestinal mucosal defence by prostaglandins and nitric oxide. 888 72

In this review we have summarized some of the evidence to support the view that mast cells play a critical role in leukocyte recruitment to sites of inflammation. Initially, data using a pharmacological tool, compound 48/80, which directly activates mast cells, is reviewed, demonstrating that this reagent can induce the multi-step recruitment of leukocytes (rolling, adhesion and emigration) to sites of inflammation. The adhesive mechanisms and pro-inflammatory mediators implicated in mast cell-induced leukocyte recruitment are discussed. Additionally, data are presented to implicate mast cells in delayed-type hypersensitivity reactions as they pertain to leukocyte recruitment. There is a growing body of evidence to suggest that mast cells also recruit leukocytes in IgE-independent leukocyte recruitment. Ischemia/reperfusion- and bacterial toxin- (Helicobacter pylori and Clostridium difficile) induced leukocyte recruitment is at least in part mast cell dependent. Future directions including preliminary work highlighting the role of nitric oxide as a modulator of mast cell function and subsequent leukocyte recruitment is also discussed.
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PMID:Leukocyte-endothelial cell interactions evoked by mast cells. 891 88

Transforming growth factor beta1 (TGF-beta1) is a member of a gene superfamily involved in the regulation of cell growth and differentiation, tissue repair, fibrosis, and inflammatory responses. Given the role of the mast cell (MC) in inflammation and fibrosis, the effect of TGF-beta1 on MC mediator release was studied. In vitro treatment of rat peritoneal MC (PMC) with TGF-beta1 (10(-10) M) for 20 h followed by washes inhibited (23%) antigen stimulated histamine release. Similar pretreatment of PMC with TGF-beta1 (10(-10) M) inhibited (27%) tumor necrosis factor-alpha (TNF-alpha) dependent cytotoxicity and reduced (31%) mRNA levels of TNF-alpha, but did not inhibit nitric oxide (NO) release. By contrast, the presence of TGF-beta1 throughout the cytotoxic assay, but without pretreatment of PMC did not modulate TNF-alpha release. At least 2 h pretreatment with TGF-beta1 was required to inhibit MC TNF-alpha-dependent cytotoxicity. This inhibitory effect of TGF-beta1 was abrogated by antibody to TGF-beta1. Interestingly, the treatment of PMC with anti-TGF-beta1 antibody alone significantly increased the release of histamine and TNF-alpha. Furthermore, freshly isolated rat PMC (10(7)) contained 35 +/- 7 pg latent TGF-beta1 and 51 +/- 9 pg was spontaneously released within 30 min of culture. However, stimulation of PMC with antigen inhibited the spontaneous release of TGF-beta1 by 43%. The duration of pretreatment with TGF-beta1 required to inhibit MC TNF-alpha release was similar to that required for downregulation of MC TNF-alpha-dependent cytotoxicity by IFN-gamma. TGF-beta1 and IFN-gamma had an additive inhibition on TNF-alpha release by PMC. This inhibitory effect was abrogated and TNF-alpha-dependent cytotoxicity was enhanced by the addition of anti-TGF-beta1 antibody, but not by anti-IFN-gamma. These results suggest MC mediator release is regulated by TGF-beta1 in an autocrine manner.
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PMID:TGF-beta1 inhibits the release of histamine and tumor necrosis factor-alpha from mast cells through an autocrine pathway. 907 Jun 12

The present study was performed to investigate the mechanism underlying the acid stimulatory response in the stomach after damage under the inhibition of nitric oxide (NO) production by N(G)-nitro-L-arginine methyl ester (L-NAME). A rat stomach was mounted in an ex vivo chamber, perfused with saline, and the potential difference (PD) and acid secretion were measured before and after the application of 20 mM taurocholate (TC) for 30 min. Exposure of the stomach to TC caused a PD reduction and a decrease of acid secretion. Pretreatment with L-NAME did not affect basal acid secretion but significantly enhanced the acid secretion in the stomach after damage with TC, without any effect on the PD response. This effect of L-NAME was antagonized by simultaneous administration of L-arginine but not D-arginine. The luminal appearance of NO was significantly increased in the stomach after exposure to TC, and this change was completely blocked in the presence of L-NAME or when EGTA was applied together with TC. The enhanced acid secretory response to TC in the presence of L-NAME was inhibited by pretreatment with cimetidine, FPL-52694 (a mast cell stabilizer), or 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 metachromatically staining cells in the stomach, and these changes were also significantly prevented by FPL-52694, spantide, or sensory deafferentation. These results suggest that 1) damage in the stomach may activate the acid stimulatory pathway in addition to the NO-dependent inhibitory mechanism, but the latter effect overcomes the former, resulting in a decrease in acid secretion, 2) the acid stimulation in the damaged stomach may be mediated by histamine released from the mucosal mast cell which may interact with capsaicin-sensitive sensory nerves, and 3) L-NAME unmasks the acid stimulatory response by suppressing the inhibitory mechanism.
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PMID:Mechanism of acid secretory changes in rat stomach after damage by taurocholate: role of nitric oxide, histamine, and sensory neurons. 907 52


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