UMLS:C0027819 - FACTA Search

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Query: UMLS:C0027819 (neuroblastoma)
27,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We investigated the effects of lithium ion (Li+) on muscarinic receptor-mediated nitric oxide (NO) generation, and guanylate cyclase (GCase) activation using the mouse neuroblastoma clone, N1E-115. The levels of released NO were determined by measuring the levels of nitrite/nitrate in the incubation medium, and the activity of GCase was measured with an assay for cellular cyclic [3H] GMP levels. We determined that Li+ had no effects on muscarinic receptor-activated elevation of nitrite/nitrate levels, which were significantly inhibited by 100 microM L-NG-monomethylarginine, although it has been reported that Li+ inhibits muscarinic receptor-activated cyclic GMP formation in the cells. In addition, Li+ inhibited the cyclic GMP formation induced by an NO donor, sodium nitroprusside (SNP), in both intact cells and a crude cellular homogenate; thus, the inhibition by Li+ of muscarinic receptor-mediated cyclic GMP synthesis appeared to be at the level of GCase, but not NO synthase.
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PMID:Inhibition by lithium of cyclic GMP formation without inhibition of nitric oxide generation in the mouse neuroblastoma cell (N1E-115). 784 Aug 63

2-Methyl-2-nitrosopropane (MNP) has long been known to undergo photochemical and thermal decomposition, generating di-tert-butyl nitroxide, in organic solvent. The present study was undertaken to demonstrate that MNP can be used as a caged-nitric oxide (NO), which can liberate NO upon illumination. Photolysis of MNP leads to the generation of tert-butyl radical and NO, as detected by spin-trapping/ESR spectroscopy and by oxyhemoglobin/visible spectroscopy, respectively. Using soluble guanylate cyclase in neuroblastoma N1E-115 cells as an NO target, we found that MNP in the presence of light caused a dose- and time-dependent increase in cGMP. Finally, illumination of a solution of MNP was also found to induce relaxation of preconstricted isolated rat pulmonary artery rings. These studies demonstrated that MNP can be useful biochemical research tool for delivering NO in a controlled manner, by using light.
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PMID:Biological studies of a nitroso compound that releases nitric oxide upon illumination. 796 50

Muscarinic receptor-mediated cyclic GMP formation and release of nitric oxide (NO) (or a precursor thereof) were compared in mouse neuroblastoma N1E-115 cells. [3H]Cyclic GMP was assayed in cells prelabeled with [3H]guanine. Release of NO upon the addition of muscarinic agonists to unlabeled neuroblastoma cells (NO donor cells) was quantitated indirectly by its ability to increase the [3H]cyclic GMP level in labeled cells whose muscarinic receptors were inactivated by irreversible alkylation (NO detector cells). Carbachol increased NO release in a concentration-dependent manner, with half-maximal stimulation at 173 microM (compared to 96 microM for direct activation of cyclic GMP formation). The maximal effect of carbachol in stimulating release of NO when measured indirectly was lower than that in elevating [3H]cyclic GMP directly in donor cells. Hemoglobin was more effective in blocking the actions of released NO than in attenuating direct stimulation of [3H]cyclic GMP synthesis. There was a good correlation between the ability of a series of muscarinic agonists to release NO or to activate [3H]cyclic GMP formation directly, and the potency of pirenzepine in inhibiting the two responses. Furthermore, there was a similar magnitude of desensitization of both responses by prolonged receptor activation or stimulation of protein kinase C. NO release was also regulated in relation to the cellular growth phase. A model is proposed in which a fraction of NO generated upon receptor activation does not diffuse extracellularly and stimulates cyclic GMP synthesis within the same cell where it is formed (locally acting NO). The remainder of NO that is extruded extracellularly might travel to neighboring cells (neurotransmitter NO) or might be taken back into the cells of origin (homing NO).
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PMID:Role of intercellular and intracellular communication by nitric oxide in coupling of muscarinic receptors to activation of guanylate cyclase in neuronal cells. 810 58

The interactions of nitric oxide (NO) and ascorbate were explored on the control of growth of human brain tumor cells. Sodium nitroprusside, a NO-generating agent, inhibited the growth of SK-N-MC human neuroblastoma cells in a dose-dependent manner. The growth inhibitory effect of nitroprusside was potentiated by sodium ascorbate and inhibited by hemoglobin. Ascorbate-induced potentiation was also observed in U-373 MG human astrocytoma cells. In both tumor cell lines, this potentiation was blocked by catalase, suggesting that hydrogen peroxide may be involved in the potentiation mechanism. In astrocytoma cells, mannitol or deferoxamine also reversed ascorbate-induced potentiation, indicating involvement of hydroxyl radical. These results suggest that the combined treatment with nitroprusside and ascorbate may be a valuable therapeutic strategy for brain tumors.
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PMID:Potentiation of anti-proliferative effect of nitroprusside by ascorbate in human brain tumor cells. 818 Sep 63

Effects of the calmodulin inhibitor calmidazolium on stimulation of nitric oxide (NO) release were investigated in neuroblastoma N1E-115 cells. NO release was determined indirectly by measuring cyclic GMP formation. Instead of the expected decrease in NO generation based on the calmodulin dependence of neuronal NO synthase, calmidazoline paradoxically increased cyclic GMP formation. Maximal activation occurred at 3 min and the effects were concentration dependent. This calmidazolium-stimulated NO release was markedly blocked by hemoglobin and N-monomethyl-L-arginine.
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PMID:The calmodulin antagonist calmidazolium stimulates release of nitric oxide in neuroblastoma N1E-115 cells. 838 25

Murine neuroblastoma clone N1E-115 cells possess neurotensin receptors that are coupled to polyphosphoinositide hydrolysis and cyclic guanosine 3',5'-monophosphate (cGMP) formation. These responses rapidly desensitize and these receptors rapidly down-regulate nearly completely in about 15 min. Although neurotensin is rapidly degraded by peptidases, in this study we show that at 37 degrees neurotensin (100 nM) in the absence of peptidase inhibitors caused this rapid desensitization and down-regulation (32 +/- 5 and 24 +/- 2% of control, respectively) of neurotensin receptors in N1E-115 cells. In addition, we demonstrated that this desensitization, resensitization, down-regulation and recovery of binding sites were temperature dependent. These data suggest that a certain degree of phospholipid fluidity or activity of some enzymes is required for these processes to occur. After addition of sodium nitroprusside or ionomycin to cells, cGMP increased in desensitized cells to the same degree as in control cells. Additionally, desensitization and down-regulation occurred in the absence of a change in the affinity of neurotensin for the remaining sites. These data suggest that desensitization is not caused by changes in nitric oxide synthesis, guanylyl cyclase activity or receptor affinity, but predominantly by a decrease in receptor number.
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PMID:Further characterization of neurotensin receptor desensitization and down-regulation in clone N1E-115 neuroblastoma cells. 839 Feb 62

The cytotoxic effects of the human immunodeficiency virus type 1 (HIV-1) coat protein gp120 were studied in human CHP100 neuroblastoma cell cultures. Incubation of neuroblastoma cultures with gp120 (1 pM-10 nM) induces cell death which is not concentration-related. The significant cell death evoked by 10 pM gp120 was prevented by neutralization of the viral protein with a monoclonal anti-gp120 (IgG) antibody. In addition, gp120-induced cytotoxicity was inhibited by [DL-(E)-2-amino-4-methyl-5-phosphono-3-pentenoic acid] (CGP37849; 100 microM), [(+/-)-3R*, 4as*, 6R*, 8aR*-6-(phosphonomethyl) decahydro-isoquinoline-3-carboxylic acid] (LY274614; 100 microM), MK801 (dizocilpine; 200 nM) and 7-chloro kynurenic acid (100 microM), selective antagonists of the NMDA receptor complex; by contrast, (6-cyano-7-nitroquinoxaline-2,3-dione (CNQX; 100 microM), a non-NMDA antagonist, was ineffective. Prevention of the lethality elicited by the HIV-1 coat protein was also obtained by incubating neuroblastoma cells with gp120 in Ca(2+)-free medium. The lethal effects induced by gp120 involve activation of L-arginine-nitric oxide (NO) pathway since these were prevented by haemoglobin (10 microM), a NO-trapping agent, and by D-arginine (1 mM), the less active enantiomer of the endogenous precursor of NO synthesis. Cytoprotection was also afforded by N omega-nitro-L-arginine methyl ester (L-NAME; 200 microM), an inhibitor of NO synthase, and this was reversed by L-arginine (1 mM). Interestingly, indomethacin and flufenamic acid (10 microM), two inhibitors of cyclooxygenase, protected neuroblastoma cells from death induced by gp120. Furthermore, indomethacin prevented the neuroblastoma cell death evoked by exposure of cultures to sodium nitroprusside (SNP; 0.2-1.6 mM), a NO donor. Finally significant cytotoxic effects were observed after incubation of neuroblastoma cells with prostaglandin E2 (0.1-10 microM). In conclusion, the present data suggest that death of human CHP100 neuroblastoma cells in culture produced by gp120 involves NO and PGE2 production.
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PMID:Death of cultured human neuroblastoma cells induced by HIV-1 gp120 is prevented by NMDA receptor antagonists and inhibitors of nitric oxide and cyclooxygenase. 858 64

Defective tissue perfusion and nitric oxide production and altered myo-inositol metabolism and protein kinase C activation have been invoked in the pathogenesis of diabetic complications including neuropathy. The precise cellular compartmentalization and mechanistic interrelationships of these abnormalities remain obscure, and nitric oxide possesses both neurotransmitter and vasodilator activity. Therefore the effects of ambient glucose and myo-inositol on nitric oxide-dependent cGMP production and protein kinase C activity were studied in SH-SY5Y human neuroblastoma cells, a cell culture model for peripheral cholinergic neurons. D-Glucose lowered cellular myo-inositol content, phosphatidylinositol synthesis, and phosphorylation of an endogenous protein kinase C substrate, and specifically reduced nitric oxide-dependent cGMP production a time- and dose-dependent manner with an apparent IC50 of approximately 30 mM. The near maximal decrease in cGMP induced by 50 mM D-glucose was corrected by the addition of protein kinase C agonists or 500 microM myo-inositol to the culture medium, and was reproduced by protein kinase C inhibition or downregulation, or by myo-inositol deficient medium. Sodium nitroprusside increased cGMP in a dose-dependent fashion, with low concentrations (1 microM) counteracting the effects of 50 mM D-glucose or protein kinase C inhibition. The demonstration that elevated D-glucose diminishes basal nitric oxide-dependent cGMP production by myo-inositol depletion and protein kinase C inhibition in peripheral cholinergic neurons provides a potential metabolic basis for impaired nitric oxide production, nerve blood flow, and nerve impulse conduction in diabetes.
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PMID:Modulation of basal nitric oxide-dependent cyclic-GMP production by ambient glucose, myo-inositol, and protein kinase C in SH-SY5Y human neuroblastoma cells. 860 30

The nitric oxide (N0-releasing agents sodium nitroprusside (SNP) and S-nitroso-N-acetylpenicillamine (SNAP) inhibit dioxygenase activity of lipoxygenase in human platelets and human CHP100 neuroblastoma cells, leading the latter to necrosis. The effect of both NO-donors on the dioxygenase reaction was investigated by using soybean lipoxygenase type II (LOX-2) as a model for the mammalian enzyme. SNP and SNAP were competitive inhibitors of LOX-2, with inhibition constants of 525 microM and 710 microM, respectively. Both compounds inactivated LOX-2 by reducing the catalytic iron to the inactive Fe(II) form and counteracted the H2O2-mediated activation of the LOX-2 catalyzed dioxygenase reaction. Similarly, the co-oxidative and per-oxidative activities of LOX-2 were also inhibited by the NO-releasing agents. These findings suggest that the biological role played by NO can be mediated, at least in part, by the inactivation of lipoxygenase, a key-enzyme for the arachidonic acid metabolism in human cells.
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PMID:Nitric oxide-donor compounds inhibit lipoxygenase activity. 861 94

Sodium nitroprusside is widely used in pharmacological studies as a potent vasodilator or a nitric oxide donor. The mechanisms of cellular death induced by sodium nitroprusside were investigated in murine neuroblastoma N1E-115 cells. Sodium nitroprusside reduced the cellular viability, and the DNA extracted from treated cells showed a ladder-like intranucleosomal fragmentation pattern, which is an indication of apoptosis. The DNA fragmentations were also visualized by in situ nick translation. The cellular death was attenuated by cycloheximide, indicating that ongoing protein synthesis was essential for the initiation of the degenerative response. However, other nitric oxide donors did not decrease the cellular viability. The nitric oxide scavenger, hemoglobin, had no effect on sodium nitroprusside-induced cellular death. Furthermore, sodium cyanide, which is formed by the metabolism of sodium nitroprusside, did not cause cellular death. On the other hand, hydrogen peroxide, another product of sodium nitroprusside metabolism, reduced the cellular viability and induced DNA fragmentation. In addition, the cell damage induced by sodium nitroprusside was enhanced by a medium without fetal bovine serum. In conclusion, we proposed that hydrogen peroxide is the important toxic species for induction of apoptosis in N1E-115 cells exposed to sodium nitroprusside.
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PMID:Sodium nitroprusside-induced apoptotic cellular death via production of hydrogen peroxide in murine neuroblastoma N1E-115 cells. 864 75

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