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)

Citrus limonoid glucosides, a family of fruit bioactive compounds, were postulated to have free radical-scavenging and apoptosis-inducing properties against certain types of cancers. Four highly purified limonoid glucosides, limoin 17beta D-glucopypranoside (LG), obacunone 17beta D-glucopyranoside (OG), nomilinic acid 17beta D-glucopyranoside (NAG), and deacetylnomilinic acid 17beta D-glucopyranoside (DNAG) were tested for superoxide radical (O(2)(-))-quenching activity and cytotoxic action against undifferentiated human SH-SY5Y neuroblastoma cells in culture. All 4 scavenged O(2)(-) as measured by inhibition of pyrogallol decomposition in a spectrophotometric assay. Quenching by NAG in particular emulated an equivalent concentration of vitamin C. When added to the medium of SH-SY5Y cells in culture, micromolar amounts of LG and OG, compared with untreated controls, caused a cessation of cell growth and rapid cell death (P < 0.001); NAG and DNAG were better tolerated, but nonetheless toxic as well. Cytotoxicity was related to a concentration- and time-dependent increase in caspase 3/7 activity, suggesting that limonoid glucosides were capable of inducing apoptosis. Arrested cell growth and the induction of apoptosis were confirmed by flow cytometry and DNA fragmentation analysis. Importantly, caspase induction at 12 h correlated with cell survival at 24 h (P = 0.046), suggesting that apoptosis was the primary cause of cell death. We conclude that citrus limonoid glucosides are toxic to SH-SY5Y cancer cells. Cytotoxicity is exerted through apoptosis by an as yet unknown mechanism of induction. Individual limonoid glucosides differ in efficacy as anticancer agents, and this difference may reside in structural variations in the A ring of the limonoid molecule.
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PMID:Citrus limonoids induce apoptosis in human neuroblastoma cells and have radical scavenging activity. 1579 49

Prostaglandin E2 (PGE2), one product of inflammatory reactions, and PGA1, which is formed during PGE2 extraction, induce degeneration in adenosine 3',5'-cyclic monophosphate (cAMP)-induced differentiated neuroblastoma (NB) cells in culture. The mechanisms of action of PGE2 on neurodegeneration are not well understood. To investigate this, we have utilized PGA(1), which mimics the effect of PGE2 and is very stable in solution. We have assayed selected markers of oxidative stress such as heme oxygenase-1 (HO-1), catalase, glutathione peroxidase (GPx1), mitochondrial superoxide dismutase (Mn-SOD-2) and cytosolic superoxide dismutase (Cu/Zn-SOD-1). The results showed that the treatment of differentiated NB cells with PGA1 for a period of 48 hr increased the expression of HO-1 and catalase, decreased the expression of GPx1 and Mn-SOD-2, and did not change the expression of Cu/Zn-SOD-1 as measured by gene array and confirmed by real-time PCR. The protein levels of HO-1 and GPx1 increased; however, the protein level of Mn-SOD-2 decreased and the levels of catalase and Cu/Zn-SOD-1 did not change as determined by Western blot. The increases in the levels of HO-1 and GPx1 reflected an adaptive response to increased oxidative stress, whereas decrease in the level of Mn-SOD-2 may make cells more sensitive to oxidative damage. These data suggest that one of the mechanisms of action of PGA1 on neurodegeneration may involve increased oxidative stress. This was supported further by the fact that a mixture of antioxidants (alpha-tocopherol, vitamin C, selenomethionine, and reduced glutathione), but not the individual antioxidants, reduced the level of PGA1-induced degeneration in differentiated NB cells. The addition of a single antioxidant at two or four times the concentration used in the mixture was toxic.
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PMID:Prostaglandin-induced neurodegeneration is associated with increased levels of oxidative markers and reduced by a mixture of antioxidants. 1592 Jul 43

Clusterin/apolipoprotein J is a multifunctional protein up-regulated during various pathophysiological states. Since oxidative stress plays an important role in brain aging, and in many neurodegenerative disorders, to further understand the mechanistic underpinnings of clusterin expression, in this study, we examined clusterin expression in human neuroblastoma cells under conditions of increased production of reactive oxygen species and lipid peroxidation. Specifically, we analyzed clusterin mRNA and protein levels in human neuroblastoma IMR-32 and SH-SY5Y cells following exposure to sub-lethal amounts of iron-ascorbate to induce an increase in reactive oxygen species generation and lipid peroxidation. Under such conditions, we observed a time-dependent up-regulation of clusterin protein and mRNA levels, detected by immunoblot analysis and RT-PCR, respectively. Given the known roles of clusterin, the results of the present study support the notion that an increase in clusterin expression may be a physiological defence mounted to reduce cell damage and maintain cell viability during periods of increased oxidative stress.
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PMID:Clusterin up-regulation following sub-lethal oxidative stress and lipid peroxidation in human neuroblastoma cells. 1646 17

Gliotoxin is a fungal second metabolite produced by diverse species that can be found in compost, stored crops, moist animal feed and sawdust. The role of glutathione in gliotoxin-induced toxicity was studied in order to elucidate the toxic mechanisms leading to neurite degeneration and cell death in differentiated human neuroblastoma (SH-SY5Y) cells. After 72 h of exposure to gliotoxin, moderate cytotoxicity was induced at 0.1 micromol/L, which was more severe at higher concentrations. A reduction in the number of neurites per cell was also observed. By decreasing the level of intracellular glutathione with L: -buthionine-sulfoxamine (BSO) a specific inhibitor of glutathione synthesis, the cytotoxic effect of gliotoxin was significantly attenuated. The gliotoxin-induced cytotoxicity was also slightly reduced by the antioxidant vitamin C. However, the neurite degenerative effect was not altered by BSO, or by vitamin C. A concentration-dependent increase in the ratio between oxidized and reduced forms of glutathione, as well as the total intracellular glutathione levels, was noted after exposure to gliotoxin. The increase of glutathione was also reflected in western blot analyses showing a tendency for the regulatory subunit of gamma-glutamylcysteine synthetase to be upregulated. In addition, the activity of glutathione reductase was slightly increased in gliotoxin-exposed cells. These results indicate that glutathione promotes gliotoxin-induced cytotoxicity, probably by reducing the ETP (epipolythiodioxopiperazine) disulfide bridge to the dithiol form.
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PMID:Glutathione intensifies gliotoxin-induced cytotoxicity in human neuroblastoma SH-SY5Y cells. 1652 52

beta-Amyloid causes apoptosis and death in cultured neurons that may be mediated by generation of reactive oxygen species. Since ascorbic acid concentrations are relatively high in brain, we tested whether and how this antioxidant might protect cultured SH-SY5Y neuroblastoma cells from apoptotic cell death. SH-SY5Y cells did not contain ascorbate in culture but readily took it up to achieve intracellular concentrations several-fold those of GSH. Treatment of cells with 2-10 microM beta-amyloid(25-35) decreased both intracellular ascorbate and GSH without affecting rates of ascorbate transport, which suggests that the peptide induces an oxidant stress in the cells. Overnight culture of cells with 10-20 microM beta-amyloid(25-35) induced apoptosis in SH-SY5Y cells when measured as externalization of phosphatidylserine by annexin V binding, as DNA fragmentation in the TUNEL assay, and as caspase-3 activity in cell lysates. Pre-loading cells with ascorbate substantially prevented apoptosis measured by these assays as well as cell death. In addition to preventing apoptosis, ascorbate loading of SH-SY5Y cells also decreased basal rates of generation of endogenous beta-amyloid. Together, these results support the notion that beta-amyloid induces apoptosis and death in neurons due to oxidant stress and suggest that intracellular ascorbate effectively prevents this toxicity.
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PMID:Ascorbic acid protects SH-SY5Y neuroblastoma cells from apoptosis and death induced by beta-amyloid. 1672 31

Neurons maintain relatively high intracellular concentrations of vitamin C, or ascorbic acid. In this work we studied the mechanisms by which neuronal cells in culture transport and maintain ascorbate, as well as how this system responds to oxidant stress induced by glutamate. Cultured SH-SY5Y neuroblastoma cells took up ascorbate, achieving steady-state intracellular concentrations of 6 mM and higher at extracellular concentrations of 200 microM and greater. This gradient was generated by relatively high affinity sodium-dependent ascorbate transport (Km of 113 microM). Ascorbate was also recycled from dehydroascorbate, the reduction of which was dependent on GSH, but not on D-glucose. Glutamate in concentrations up to 2 mM caused an acute concentration-dependent efflux of ascorbate from the cells, which was prevented by the anion channel blocker 4,4'-diisothiocyanatostilbene-2,2'-disulfonic acid. Intracellular ascorbate did not affect radiolabeled glutamate uptake, showing absence of heteroexchange.
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PMID:Ascorbate transport and recycling by SH-SY5Y neuroblastoma cells: response to glutamate toxicity. 1679 74

Mercury is a potent neurotoxin that can delay neurological development in neonates, and has been proposed to be an environmental risk factor for several neurodegenerative conditions. The mechanisms by which environmental factors may influence the propagation of neurodegenerative diseases are not yet well delineated. However, it is known that neurons require trophic factor support for maintenance and survival following traumatic physical and toxic insults. We found that divalent mercury (HgCl(2)) inhibited ciliary neurotrophic factor and interferon-gamma receptor-mediated Janus tyrosine kinase (Jak)/signal transducers and activators of transcription (STAT) pathway activation in SK-N-BE(2)-C neuroblastoma cell cultures, but did not inhibit the fibroblast growth factor receptor tyrosine kinase. Results of dichlorofluorescein experiments showed increased levels of oxidative stress in HgCl(2)-treated cells that was similar in magnitude to that caused by treatment with H(2)O(2). The antioxidant agents glutathione, N-acetylcysteine, and sodium ascorbate each protected neurons against HgCl(2)-induced inhibition of STAT activation. HgCl(2) also inhibited Jak-STAT signaling in cultures of chick retina neurons, but did not affect signaling in nonneuronal HepG2 cells and chick skeletal myotubes. The specific inhibition of growth factor-mediated Jak-STAT signaling pathways in neurons by HgCl(2)-induced oxidative stress offers a new mechanism by which mercury may produce neurotoxic symptoms in the developing nervous system, promote neurodegeneration in mature neurons, and inhibit recovery following neurotrauma.
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PMID:Mercury abolishes neurotrophic factor-stimulated Jak-STAT signaling in nerve cells by oxidative stress. 1689 58

The recycling heparan sulfate (HS)-containing proteoglycan glypican-1 (Gpc-1) is processed by nitric oxide (NO)-catalyzed deaminative cleavage of its HS chains at N-unsubstituted glucosamines. This generates anhydromannose (anMan)-containing HS degradation products that can be detected by a specific antibody. Here we have attempted to identify the intracellular compartments where these products are formed. The anMan-positive degradation products generated constitutively in human bladder carcinoma cell line (T24) or fibroblasts appeared neither in caveolin-1-associated vesicles nor in lysosomes. In Niemann-Pick C-1 (NPC-1) fibroblasts, where deaminative degradation is abrogated, formation of anMan-positive products can be restored by ascorbate. These products colocalized with Rab7, a marker for late endosomes. When NO-catalyzed degradation of HS was depressed in mouse neuroblastoma cell line (N2a) by using 3-beta[2(diethylamino) ethoxy]androst-5-en-17-one (U18666A), both ascorbate and dehydroascorbic acid restored formation of anMan-positive products that colocalized with Rab7. In T24 cells, constitutively generated anMan-positive products colocalized with both Rab7 and Rab9, whereas Gpc-1 colocalized with Rab9, a marker for transporting endosomes. Inhibition of endosomal acidification, which blocks transfer from early (Rab5) to late (Rab7) endosomes, abrogated deaminative degradation of HS. This could also be overcome by the addition of ascorbate, which induced formation of anMan-positive degradation products that colocalized with Rab7. After (35)S-sulfate labeling, similar degradation products were recovered in Rab7-positive vesicles. We conclude that NO-catalyzed degradation of HS may begin in early endosomes but is mainly taking place in late endosomes.
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PMID:Constitutive and vitamin C-induced, NO-catalyzed release of heparan sulfate from recycling glypican-1 in late endosomes. 1697 78

Among marine sessile organisms, sponges (Porifera) are the major producers of bioactive secondary metabolites that defend them against predators and competitors and are used to interfere with the pathogenesis of many human diseases. Some of these biological active metabolites are able to influence cell survival and death, modifying the activity of several enzymes involved in these cellular processes. These natural compounds show a potential anticancer activity but the mechanism of this action is largely unknown. In this study, we investigated the effects of two Mediterranean sponges, Agelas oroides and Petrosia ficiformis on the viability of human neuroblastoma cells. Upon treatment with the methanolic extract of Petrosia ficiformis, a marked cytotoxic effect was observed at any concentration or time of exposure. In contrast, a time- and dose-dependent effect was monitored for Agelas oroides that induced the development of apoptotic features and ROS production in LAN5 cells. These events were suppressed by calpeptin or zVAD and by vitamin C suggesting that the cell death caused by Agelas oroides was calpain- and caspase-dependent and of oxidative nature. Comet assay showed that this methanolic extract was not able to produce a genotoxic effect. Future studies will be applied to investigate the effect of isolated bioactive compounds from crude extract of this sponge which are potentially useful for cancer therapeutics.
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PMID:Effects of Agelas oroides and Petrosia ficiformis crude extracts on human neuroblastoma cell survival. 1714 25

Disodium 2,4-sulphophenyl-N-tert-butylnitrone (NXY-059) is a novel free radical-trapping compound that is neuroprotective in both rodent and primate models of acute ischaemic stroke. Neuroprotection in vitro by NXY-059 has not been reported previously, and we have now investigated whether such an effect can be detected using a simple cell culture model of neurotoxicity. Neuron-like cells of the neuroblastoma-derived clonal cell line N1E-115 were exposed to the free radical-generating agent sodium nitroprusside (SNP), which produced a concentration-dependent reduction in mitochondrial complex II activity 24 h later (EC(50) approximately 100 micromolar). Cell death induced by SNP (100 micromolar), assessed either by an increased proportion of apoptotic nuclear morphology or by mitochondrial complex II activity, was inhibited by a cocktail of known antioxidants (ascorbate, reduced glutathione, and dithiothreitol, all at 100 micromolar) but not by NXY-059 at a concentration known to be neuroprotective in vivo (300 micromolar). Disodium 2,4-sulphophenyl-N-tert-butylnitrone was also without effect on H(2)O(2)-mediated cytotoxicity. These results support recent data suggesting that in vivo NXY-059 probably acts at the neurovascular unit rather than at an intracellular site as a neuroprotective agent.
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PMID:The nitrone disodium 2,4-sulphophenyl-N-tert-butylnitrone is without cytoprotective effect on sodium nitroprusside-induced cell death in N1E-115 neuroblastoma cells in vitro. 1755 59

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