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)

Two spontaneously arising variant clones were selected from the N18 neuroblastoma cell line solely on the basis of their flattened morphology and tight adherence to the culture flask. Two other clones having the round loosely adherent morphology typical of the parent line were also selected, and flat variants were shown to arise in them upon prolonged cultivation. The flat variant clones have slower growth rates in culture, lower cloning efficiencies in suspension, and reduced acetylcholinesterase inducibility when compared with either the parent N18 line or the round cell clones. Cells of both morphologic types have high levels of plasminogen activator and are tumorigenic, although the variants have a slower growth rate in vivo, consistent with their slower growth rate in culture. SDS-polyacrylamide gel electrophoresis of total protein from the two cell types shows that the flat variants have increased amounts of a 200,000 molecular weight polypeptide that has tentatively been identified as the heavy chain of myosin. Round morphological revertants from one of the flat variant clones exhibited growth characteristics typical of the parent N18 line, but their content of myosin heavy chain, although reduced, was not so low as that in the round cell clones originally isolated. The possibility of a causal relationship between flat morphology, reduced suspension cloning efficiency, and increased content of myosin heavy chain is discussed.
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PMID:Clonal variation in cultured neuroblastoma cells. I. Isolation and characterization of variants. 719 8

The cellular localization of the molecular forms of acetylcholinesterase was explored in chick sympathetic neurons and in mouse T28 cells (neuroblastoma X sympathetic ganglion cell hybrids) using the reversible, poorly lipid-soluble inhibitor of acetylcholinesterase, BW284C51, to protect cell surface activity while inactivating cytoplasmic activity with DFP, an irreversible, lipid-soluble inhibitor. Our results show protection of over 80% of the chick 11 S form and over 90% of the corresponding mouse 10 S form under these conditions, while over 90% of the chick 6.5 S and mouse 4 S forms are inhibited. The results suggest that the avian 11 S and mouse 10 S forms are predominantly or exclusively ectoenzymes while the respective 6.5 S and 4 S forms are confined to the cytoplasm.
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PMID:Cellular localization of the multiple molecular forms of acetylcholinesterase in cultured neuronal cells. 721 57

After exposure to increased oxygen tension for 3 days, cultured mouse neuroblastoma cells were found to undergo morphological differentiation and to significantly increase their ecto-acetylcholinesterase activity. Differentiation could not be blocked by KCN or lipid-soluble antioxidants, indicating that neither an increased respiration, nor an increased oxidation of membrane lipids was responsible for the effect.
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PMID:Differentiation of mouse neuroblastoma cells under increased oxygen tension. 738 75

Studies were carried out on the polymorphism of acetylcholinesterase (AChE, EC 3.1.1.7) in a neuroblastoma x sympathetic ganglion cell hybrid cell line (T28) and its parental clone (N18TG2). These cells contain the tetrameric (G4, 10S), dimeric (G2, 6.5S) and monomeric (G1, 4S) forms of AchE, but not the collagen-tailed A12(16S) form of the sympathetic ganglion. Three variants of these forms could be distinguished on the basis of their solubility properties: (i) secreted forms which do not interact with the detergent Triton X-100; (ii) cellular forms which may be solubilized in detergent-free buffer and which interact reversibly with Triton X-100; (iii) cellular forms which require detergent for solubility, and aggregate in its absence. By using a nonpenetrating inhibitor, we demonstrated that, in T28 stationary cells, the cellular G4 form is associated with the plasma membrane, whereas the G1 form is intracellular. During induction of AChE activity in T28 cells, the relative proportion of the G4 form increases, suggesting, in agreement with previous observations, that G1 is a metabolic precursor of G4. The evolution of AChE molecular forms released into the culture medium closely resembles that of the cellular forms. The preferential accumulation of the G4 molecules does not simply depend on the cellular level of G1. It is favoured by culture conditions which promote morphological differentiation, but does not require the actual extension of neurites. T28 cells as well as other neuroblastoma-derived cells appear to be useful experimental materials to investigate the regulatory mechanisms underlying the maturation of AChE globular forms.
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PMID:Modulation of the distribution of acetylcholinesterase molecular forms in a murine neuroblastoma x sympathetic ganglion cell hybrid cell line. 745 5

The relationship of genes associated with contact inhibition of cell growth and the commitment for differentiation was studied in the human neuroblastoma cell line SH5Y. These cells could be induced to differentiate in vitro into neuronal-like cells upon incubation with retinoic acid, an event that was accompanied by an enhancement in levels of neuron-specific acetylcholinesterase. The kinetics of differentiation, based on morphology and acetylcholinesterase levels, showed that proliferation arrest always preceded differentiation and may be a prerequisite for differentiation. To determine if this growth arrest is mediated by the same pathway underlying contact inhibition of proliferation, the expression of a gene associated with the induction of contact inhibition, protein disulfide isomerase (PDI), was quantified by Northern blot analysis and enzymatic activity after retinoic acid treatment. Retinoic acid caused a significant elevation of PDI-mRNA within 24 hrs. after treatment with a corresponding increase in enzyme activity which immediately preceded proliferation arrest and differentiation. Bacitracin, a specific inhibitor of PDI, abrogated the ability of retinoic acid to induce differentiation. However, treatment with interferon also increased PDI activity and caused proliferation arrest and SH5Y differentiation but into a fibroblastoid cell without neurite outgrowth. These results suggest that the commitment for differentiation of SH5Y cells involves a form of proliferation arrest in which activation of PDI activity is a required and early event but one that does not determine the final differentiation pathway.
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PMID:Induction of protein disulfide isomerase during proliferation arrest and differentiation of SH5Y neuroblastoma cells. 754 84

1. Activities of acetylcholinesterase (AChE), neuropathy target esterase (NTE), and carboxylesterase (CbxE) were compared in neuroblastoma cells of human origin (SH-SY5Y) and murine origin (NB41A3). 2. Mouse neuroblastoma cells had lower specific activities of NTE and CbxE than did human neuroblastoma cells; specific activities in the murine cells correlated with specific activities in mouse brain. 3. AChE activities in mouse and human neuroblastoma cells were considerably lower than AChE activities in mouse or hen brain. 4. Inhibition of esterases did not demonstrate interspecies differences for 12 of the 17 anti-esterase compounds tested with human and mouse neuroblastoma cells.
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PMID:Esterase comparison in neuroblastoma cells of human and rodent origin. 755 40

Although the neurotoxicity of organophosphorus compounds is generally attributed to inhibition of acetylcholinesterase, recent reports have indicated that direct interactions with muscarinic receptors and signal transduction may be an additional mechanism of neurotoxicity. We have previously shown that the organophosphorus insecticide O,O-diethyl O-3,5,6-trichloro-2-pyridinyl phosphorothioate (chlorpyrifos) binds directly to muscarinic receptors and inhibits adenylate cyclase of rat striatum. We have further pursued those results in this study by investigating the effect of chlorpyrifos oxon in NG108-15 neuroblastoma-glioma cells and Chinese hamster ovary cells transfected with cDNA for human m2 or m4 muscarinic receptor subtypes. At millimolar concentrations, chlorpyrifos oxon inhibited [3H]QNB binding in all cell lines. Likewise, [3H]CD binding was inhibited in NG108-15 and CHO-Hm2 cells. When the effect of chlorpyrifos oxon on adenylate cyclase was examined, the oxon was found to inhibit adenylate cyclase at millimolar concentrations. Though this effect on cyclase required greater concentrations of oxon than the comparable effect in striatal cells, it displayed the common characteristic of being atropine-insensitive, suggesting that the effect on cyclase was not muscarinic receptor dependent. The inhibition of adenylate cyclase produced by chlorpyrifos oxon was not eliminated in pertussis toxin treated cells, lending further support to the idea that it is not a receptor-mediated event, and suggesting a potential direct interaction of chlorpyrifos oxon with the adenylate cyclase molecule.
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PMID:In vitro effect of chlorpyrifos oxon on muscarinic receptors and adenylate cyclase. 756 87

All-trans-retinoic acid (ATRA) has been shown to be one of the most potent chemical inducers of human neuroblastoma differentiation. The recent discovery that the stereoisomer of ATRA, 9-cis-retinoic acid (9-cis-RA), binds to both the retinoic acid and retinoid X series of receptors prompted us to evaluate the ability of this compound to promote differentiation of this cell type. Using the LA-N-5 cell line, we have now determined that 9-cis-RA can induce the differentiation of human neuroblastoma cells as evidenced by dose-dependent inhibition of cell proliferation, neurite outgrowth, increased acetylcholinesterase activity, and reduction of N-myc mRNA expression. In comparing the effects of 9-cis-RA to ATRA, we found that while both compounds induced qualitatively similar cholinergic (versus adrenergic) features in LA-N-5 cells, 9-cis-RA was 5-to-10-fold more potent than ATRA in its antiproliferative and differentiation activity. These results were supported by transient transfection experiments utilizing chloramphenicol acetyltransferase (CAT) plasmid constructs containing a retinoic acid responsive regulatory element which showed a 2-to-3-fold increase in reporter gene activity induced with 9-cis-RA over that seen with ATRA at pharmacologically relevant retinoid concentrations (> 10(-8) M). Furthermore, we have determined that 9-cis-RA can significantly enhance mRNA levels of the nuclear retinoic acid receptors alpha and beta in LA-N-5 cells. Taken together, these findings have established the ability of 9-cis-RA to induce neuroblastoma differentiation and suggest that this retinoic acid isomer may have better therapeutic characteristics than ATRA.
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PMID:Enhanced potency of 9-cis versus all-trans-retinoic acid to induce the differentiation of human neuroblastoma cells. 758 96

We investigated the effect on differentiation of genistein, an inhibitor of tyrosine protein kinase, and 1-(-5 isoquinolinylsulfonyl)-2-methylpiperazine (H7), an inhibitor of protein kinase C, in neuroblastoma cell lines. Growth inhibition and expression of morphological and biochemical properties were examined in the human neuroblastoma cell lines TS12 and SJNKP. Genistein and H7 induced neurite outgrowth, increased acetylcholinesterase activity and cell growth inhibition in both cell lines. These results underline that tyrosine protein kinase and protein kinase C may play a key role in the control of differentiation and proliferation of neural cells.
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PMID:Inhibitors of protein kinases induce differentiation in human neuroblastoma cell lines. 765 25

1. Organophosphates can cause acute toxicity, which follows inhibition of acetylcholinesterase (AChE), or delayed neuropathy, which follows inhibition of neuropathy target esterase (NTE). 2. Human neuroblastoma SH-SY5Y cells contain AChE and NTE. 3. Organophosphates actively able to inhibit AChE in animal models inhibited AChE in neuroblastoma cells. 4. Inhibition of NTE in neuroblastoma cells could identify active organophosphates capable of causing delayed neuropathy in animal models and distinguish these organophosphates from those that do not cause delayed neuropathy in animal models.
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PMID:Using neuroblastoma cell lines to address differential specificity to organophosphates. 767 43

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