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)

A variety of compounds derived from garlic bulbs have been shown in animal systems to possess anticancer properties. However, little information is available regarding the effectiveness of garlic in the prevention or treatment of human cancers. In the current study, we have assessed the ability of S-allyl cysteine (SAC), a derivative of aged garlic extract, to affect the proliferation and differentiation of LA-N-5 human neuroblastoma cells in vitro. Time-and dose-dependent inhibition of cell grow was observed in cultures treated with SAC for at least 2 days, with a half-maximal response at approximately 600 micrograms/ml. SAC treatment was unable to induce differentiation in neuroblastoma cells as assessed by morphological, biochemical and molecular markers. In addition, SAC was unable to potentiate the effects of retinoic acid and 8-bromo-cyclic AMP, agents known to promote differentiation of LA-N-5 cells. Our results indicate that SAC can inhibit human neuroblastoma cell growth in vitro. However, the apparent inability of this compound to induce differentiation may limit its therapeutic potential.
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PMID:Antiproliferative effect of the garlic compound S-allyl cysteine on human neuroblastoma cells in vitro. 134 4

The expression of the genes in the human HOX2 locus has been studied during differentiation of two human neuroblastoma (SH-SY5Y and Kelly), a human glioblastoma (251-MG), and the murine F9 embryonal carcinoma cell lines. Cells were differentiated with retinoic acid (RA), or with RA together with dibutyral cyclic AMP (db-cAMP) and nerve growth factor (NGF) in order to assess the changes in the expression patterns of these homeobox genes during neuronal differentiation. We show that the genes of the HOX2 locus are expressed in a complex transcription pattern that varies with cell type. The two uninduced neuroblastoma cell lines show a similar pattern of expression for a number of HOX2 genes although the levels of expression are different for individual cell lines. The embryonal carcinoma cell line F9 expresses low levels of several HOX2 genes which is restricted to the 5' region of the HOX2 cluster. The glioblastoma cell line, 251-MG expresses almost all of the genes of the HOX2 locus. Differentiation of these cells modulates the expression of the HOX2 genes in a manner that is dependent upon the cell type as well as the differentiation factor. Differentiation affects both the level of HOX2 gene expression and the distribution of transcript sizes. In conclusion, our analysis reveals a complex pattern of expression for the genes of the HOX2 locus in neuronal and glial cells and suggests that the cell-specific expression of these genes may be correlated with the phenotypic differences that are observed between different neuronal and glial cell populations within the nervous system.
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PMID:Modulation of HOX2 gene expression following differentiation of neuronal cell lines. 136 Apr 33

1. Pharmacological and kinetic properties of high-voltage-activated (HVA) Ca2+ channel currents were studied using the whole-cell and perforated patch-clamp methods in a mouse neuroblastoma and rat glioma hybrid cell line, NG108-15, differentiated by dibutyryl cyclic AMP or by prostaglandin E1 and theophylline. 2. The HVA currents were separated into two components by use of two organic Ca2+ channel antagonists, omega-conotoxin GVIA (omega CgTX) and a dihydropyridine (DHP) compound, nifedipine. One current component, IDHP, was blocked by nifedipine (Kd = 8.2 nM) and was resistant to omega CgTX. Conversely, the other component, I omega CgTX, was irreversibly blocked by omega CgTX and was resistant to DHPs. Thus, IDHP could be studied in isolation by a short application of omega CgTX, while I omega CgTX could be studied in the presence of nifedipine. 3. The voltage for half-activation of IDHP was smaller than that of I omega CgTX by 13 mV. IDHP was activated at potentials that were subthreshold for voltage-dependent K+ currents of the cell, whereas I omega CgTX was not. 4. Time courses of activation and deactivation of IDHP were faster than those of I omega CgTX. 5. Voltage-dependent inactivation was small for both IDHP and I omega CgTX at any potential. 6. Ca(2+)-dependent inactivation of IDHP was faster and more prominent than that of I omega CgTX. The time course of the Ca(2+)-dependent inactivation of IDHP, but not I omega CgTX, was slowed as the membrane potential was made more positive between -20 and 30 mV, although amplitude of the current was increased. 7. Alkaline earth metal ions carried the two components of IHVA in the same order: Ba2+ greater than Sr2+ greater than Ca2+. 8. Metal ions blocked the two components of IHVA in the same order of potency: Gd3+ greater than La3+ greater than Cd2+ greater than Cu2+ greater than Mn2+ greater than Ni2+. 9. An alkylating agent, N-ethylmaleimide (NEM, 0.1 mM), selectively augmented IDHP by 30%. 10. During the course of cellular differentiation induced by dibutyryl cyclic AMP, IDHP appeared earlier than I omega CgTX. 11. These results indicate that two classes of Ca2+ channels contribute to the HVA currents of this cell line. The DHP-sensitive channel is more apt to generate Ca2+ spikes and Ca2+ plateau potentials than the omega CgTX-sensitive channel.
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PMID:Dihydropyridine-sensitive and omega-conotoxin-sensitive calcium channels in a mammalian neuroblastoma-glioma cell line. 137 34

Cyclic AMP can profoundly influence the growth and differentiation of neuronal cells in culture. In this study, the relationship between this second messenger signal transduction pathway, cell differentiation, and the expression of a retinoid-responsive, thymosin beta-10 gene was examined. Thymosin beta-10 and cognate mRNA were expressed at high levels in actively proliferating rat B104 neuroblastoma cells cultured in medium containing 10% FCS. These cells were induced to differentiate in the presence of the cAMP analog N6, 2'-O-dibutyryladenosine 3':5'-cyclic monophosphate (Bt2-cAMP) (1 mM) and the phosphodiesterase inhibitor 3-isobutyl-1-methylxanthine (IBMX) (100 microM). Expression of thymosin beta-10 mRNA was markedly inhibited (greater than 90% and 70%, respectively) by these compounds. Addition of sodium butyrate (NaB, 1 mM) indicated that at least part of the inhibitory actions of Bt2-cAMP were due to esterase-induced release of butyrate from this compound. Adenosine (50 microM), a metabolic precursor to endogenous cyclic AMP, also inhibited accumulation of thymosin beta-10 mRNA (to less than 70% of control levels). The inhibitory action of Bt2-cAMP upon thymosin beta-10 mRNA levels was time dependent; levels were inhibited by greater than 50% 24 hours after addition of the cAMP analog and by greater than 90% after 72 hours. Serum starvation (0.2% FCS for seven days) provoked a marked increase in neurite out-growth; this morphological change was also accompanied by a modest inhibition of thymosin beta-10 mRNA accumulation. These findings together with previous observations imply that both cyclic AMP-dependent and retinoid-responsive mechanisms coordinate thymosin beta-10 gene expression during neuroembryogenesis.
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PMID:Influence of cyclic AMP and serum factors upon expression of a retinoid-responsive gene in neuroblastoma cells. 137 94

Neuroblastoma x glioma hybrid NG108-15 cells express a high-affinity IP prostanoid receptor. Saturation binding analysis of this receptor, using [3H]prostaglandin E1 ([3H]PGE1) as ligand, indicated that it was present at some 1.5 pmol/mg of membrane protein and displayed a dissociation constant for this ligand of 30-40 nM. Prolonged exposure of these cells either to PGE1 or to iloprost, which is a stable analogue of prostacyclin, caused a 40-70% decrease in levels of the receptor. The remaining receptors were capable of interacting with the stimulatory G-protein (Gs) of the adenylate cyclase cascade, as saturation analysis of the binding of [3H]PGE1 indicated that they had a similar affinity for the 3H-labelled ligand, and because the specific binding of [3H]PGE1 to these receptors was still sensitive to the presence of poorly hydrolysed analogues of GTP. We have recently demonstrated that prolonged exposure of NG108-15 ells to PGE1 causes a cyclic AMP-independent loss of Gs alpha-subunit (Gs alpha) from these cells [McKenzie & Milligan (1990) J. Biol. Chem. 265, 17084-17093]. Steady-state concentration of the larger 45 kDa form of Gs alpha (which is the predominant form expressed in these cells) was assessed to be 9.6 pmol/mg of membrane protein, and treatment with iloprost decreased levels of this polypeptide to some 3.0 pmol/mg of protein. Time courses of iloprost-mediated down-regulation of the IP prostanoid receptor, loss of Gs alpha protein as assessed by immunoblotting and loss of Gs alpha activity as assessed by the reconstitution of NaF stimulation of adenylate cyclase activity to membranes of S49 cyc- cells by sodium cholate extracts of NG108-15 cells were identical, suggesting that the loss of the IP prostanoid receptor and G-protein occurred in parallel. Each of these effects was half-maximal between 2 and 3 h of exposure to the agonist. Stoichiometry of loss of Gs alpha and IP prostanoid receptor was unchanged by the percentage receptor occupancy, and quantification indicated the loss of some 7-10 mol of Gs alpha/mol of receptor. This is the first report to demonstrate the temporal concurrence of loss of Gs alpha and of a receptor which interacts with this G-protein. Chronic activation of the IP prostanoid receptor on these cells results in the development of a heterologous form of desensitization to agents which function to activate adenylate cyclase [Kelly, Keen, Nobbs & MacDermot (1990) Br. J. Pharmacol. 99, 306-316]. Agonist regulation of Gs alpha levels in these cells may contribute to this process.
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PMID:Concurrent down-regulation of IP prostanoid receptors and the alpha-subunit of the stimulatory guanine-nucleotide-binding protein (Gs) during prolonged exposure of neuroblastoma x glioma cells to prostanoid agonists. Quantification and functional implications. 137 45

Dopamine beta-hydroxylase, the enzyme which converts dopamine to norepinephrine, is expressed in a cell type-restricted pattern in neuroendocrine tissue. A segment of the rat gene containing 395 bases of 5'-flanking sequence regulates expression of a reporter gene in a cell type-selective pattern in mammalian cell cultures. Using deletion mutants of the 5'-flanking sequence, we have identified a 30-base genetic regulatory element, designated DB1, which enhances transcription from a heterologous promoter 5-20-fold in neuroendocrine cell lines. DB1-specific DNA-protein complexes are found in nuclear extracts from all cell lines examined, but the migration pattern differs between cell lines. The 5'-flanking region of the dopamine beta-hydroxylase gene is also responsive to cyclic AMP and phorbol ester treatment of SHSY-5Y neuroblastoma cells. The simultaneous presence of both effectors results in synergistic increases in DBH1 mRNA and reporter gene activity. The second messenger regulatory element was localized to the region containing the DB1 element, and reporter plasmids containing multiple copies of the DB1 element are responsive to treatment with inducers. The results of this study identify a cis-acting regulatory element which influences both cell type selectivity and second messenger responsiveness of the rat dopamine beta-hydroxylase gene.
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PMID:A bifunctional genetic regulatory element of the rat dopamine beta-hydroxylase gene influences cell type specificity and second messenger-mediated transcription. 138 62

Genomic and cDNA clones encoding the rat D1 receptor were isolated and sequenced. Comparison of the D1 receptor cDNA and genomic sequences revealed that the rat D1 receptor gene is organized into two exons separated by a small intron in the 5' untranslated region of its mRNA. The transcription start site is located 864 bp upstream from the translational initiation site. The 5'-flanking sequences of the D1 receptor gene do not contain TATA and CAAT canonical sequences, but have a high G+C content, potential cyclic AMP and glucocorticoid response element sequences, and binding sites for transcription factors such as Sp1, Ap1, and Ap2. Transfection studies using the D1 5'-flanking sequence and CAT gene fusion constructs have demonstrated that (1) the D1 promoter is active in D1-expressing neuroblastoma NS20Y cells, but inactive in D1-deficient glioma C6 and kidney 293 cells, (2) the information contained within 735 bp of 5'-flanking sequence of the D1 gene appears to be sufficient to confer its cell-specific expression, and (3) the D1 gene promoter responds to cyclic AMP induction, suggesting the existence of an auto-regulation mechanism by which the stimulation of D1 receptor exerts a positive feedback on its own gene expression.
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PMID:Characterization of gene organization and promoter region of the rat dopamine D1 receptor gene. 140 30

Muscarinic receptors in N1E 115 mouse neuroblastoma cells were characterized by competition binding experiments using three agonists and five antagonists, including 4-DAMP and AF-DX 116, and by studying the effect of agonist stimulation on the cellular cAMP and cGMP content. The results of the binding studies with the antagonists suggest that only one single homogeneous binding site of the M1 muscarinic receptor subtype is present. For the binding with the agonists, two binding sites were detected, one with high affinity for the ligand (between 53 and 77% of the total binding sites depending on the agonist) and one with low affinity. In contrast to the results obtained with the binding experiments using antagonists, the study of the cellular cyclic nucleotide response upon carbachol stimulation suggested the presence of both the M1 and M2 subtypes as there was an increase in cyclic GMP concentration while at the same time, the prostaglandin-stimulated synthesis of cyclic AMP was inhibited. Considering both binding and functional data we suggest that in N1E 115 cells a majority of M1 and a minority of M2 muscarinic receptors are present; there is no evidence for the presence of M3 muscarinic receptors.
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PMID:Study of the muscarinic receptor subtypes in N1E 115 mouse neuroblastoma cells. 164 47

The morphological change of several neuroblastoma cell lines induced by griseolic acid, a novel and potent inhibitor of cyclic nucleotide phosphodiesterase (PDE), was examined. In the cell lines tested, Neuro-2a (a murine neuroblastoma cell line) showed dose-dependent (1 microM-1 mM) neurite extension. Griseolic acid markedly increased the intracellular cyclic AMP level of Neuro-2a cells, suppressed DNA synthesis (82% at 1 mM), and induced multipolar (multiple-neurite-bearing)-type neuritogenesis. A similar type of neurite outgrowth was induced by 8-bromo-cyclic AMP, which also elevated the intracellular cyclic AMP concentration. In contrast, when Neuro-2a cells were treated with retinoic acid, neurite formation was of the monopolar (single-neurite-bearing) type. Papaverine and theophylline, which have been frequently used as PDE inhibitors, failed to induce these morphological changes up to 1 mM, probably owing to the lesser potency of these compounds as compared with griseolic acid on the inhibition of PDE. Retinoic acid, theophylline, and papaverine were ineffective at elevating the intracellular cyclic AMP level. These results suggest that multipolar-type cell shape change in Neuro-2a cells is correlated with the accumulation of intracellular cyclic AMP and that griseolic acid is a useful compound to induce neuroblastoma cells into terminal differentiation.
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PMID:Multiple neurite formation in neuroblastoma cell lines by griseolic acid, a potent inhibitor of cyclic nucleotide phosphodiesterases. 164 54

The effects of the lithium ion (Li+) on receptor-mediated synthesis of second messengers were determined, when cellular sodium channels were quiescent or excited, using the murine neuroblastoma clone (N1E-115). In this clone, lithium inhibited the receptor-mediated synthesis of cyclic AMP and cyclic GMP and it also increased the accumulation of inositol phosphates by a receptor-mediated process. When veratridine (20 microM) excited the sodium channel, the effects of lithium were potentiated. However, tetrodotoxin, a sodium channel blocker, completely prevented this potentiation. These results suggest that when neurons are depolarizing actively and intraneuronal levels of lithium increase by entry through the sodium channel, lithium has a more potent intracellular effect. As a result, lithium would have more potent and selective effects in those pathologically-active neurons underlying manic-depressive disorder.
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PMID:Potentiation by a sodium channel activator of effects of lithium ion on cyclic AMP, cyclic GMP and inositol phosphates. 165 Sep 29

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