Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0027819 (neuroblastoma)
 27,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Mevinolin, a competitive inhibitor of 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase, stimulates neurite outgrowth and acetylcholinesterase (ACE) activity in C1300 (Neuro-2A) murine neuroblastoma cells. Sprouting of neurites began within 4-8 h, before changes in cell proliferation could be detected by [3H]thymidine incorporation or flow cytometry. In contrast, the increase in ACE activity was temporally correlated with suppression of DNA synthesis, which occurred after 8 h. The activity of the membrane marker enzyme phosphodiesterase I was not stimulated by mevinolin. Suppression of protein synthesis with cycloheximide blocked the induction of ACE activity but only partially inhibited neurite outgrowth in the mevinolin-treated cultures. When mevinolin was removed from the culture medium, most of the cells retracted their neurites within 2 h, but ACE activity did not decline until DNA synthesis began to return to control levels after 10 h. Similarly, retraction of neurites in differentiated cells exposed to colchicine was not accompanied by a decrease in ACE activity. DNA histograms suggested that mevinolin arrests neuroblastoma cells in both the G1 and G2/M compartments of the cell cycle. Other cytostatic drugs that arrest cells at different stages of the cell cycle did not cause Neuro-2A cells to form neurites such as those seen in the mevinolin-treated cultures. When incorporation of [3H]acetate into isoprenoid compounds was studied in cultures containing mevinolin in concentrations ranging from 0.25 microM to 25 microM, the labeling of cholesterol, dolichol, and ubiquinone was suppressed by 90% or more at all concentrations. However, significant growth arrest and cell differentiation were observed only at the highest concentrations of mevinolin. Supplementing the medium with 100 microM mevalonate prevented the cellular response to mevinolin, but additions of cholesterol, dolichol, ubiquinone, or isopentenyl adenine were generally ineffective. The cholesterol content of neuroblastoma cells incubated with 25 microM mevinolin for 24 h was not diminished, and protein glycosylation, measured by [3H]mannose incorporation, was decreased only after 24 h at high mevinolin concentration. These studies suggest that the stimulation of neurite outgrowth and the increase in ACE activity induced by mevinolin are independent phenomena. Whereas neurite outgrowth is not related directly to the effects of mevinolin on cell cycling, the induction of ACE is correlated with the inhibition of cell proliferation.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Differentiation of neuroblastoma cells induced by an inhibitor of mevalonate synthesis: relation of neurite outgrowth and acetylcholinesterase activity to changes in cell proliferation and blocked isoprenoid synthesis. 385 9

Tunicamycin, a potent inhibitor of protein glycosylation, was used to study the role of protein glycosylation in the regulation of muscarinic acetylcholine receptor (mAChR) number in cultures of N1E-115, a murine neuroblastoma cell line. At a concentration of 0.35 microgram/ml, tunicamycin inhibited macromolecular incorporation of [3H]mannose by 75-80%, whereas incorporation of [3H]leucine was reduced by only 10%. Treatment with tunicamycin caused a 30% decrease in total membrane mAChR number within 48 h as determined by a filter-binding assay using [3H]quinuclidinyl benzilate ([3H]QNB), a highly specific muscarinic antagonist. Tunicamycin also inhibited the recovery of total membrane mAChR by 70% following carbachol-induced down-regulation. The rate of mAChR degradation (control t1/2 12-14 h) was unaffected by incubation with tunicamycin. Intact cell binding studies using [3H]QNB (a membrane-permeable ligand) to measure total cellular (internal plus cell surface) mAChR and [3H]N-methylscopolamine ([3H]NMS, a membrane-impermeable ligand) to measure cell surface mAChR were conducted to determine whether tunicamycin selectively depleted cell surface mAChR. With 12 h of treatment with tunicamycin, cell surface mAChR number declined by 35%, whereas total cellular mAChR fell by only 10%. The ratio of cell surface receptor to total receptor decreased by 45% after 24 h. These results indicate that protein glycosylation is required for the maintenance of cell surface mAChR number. Incubation with tunicamycin causes a selective depletion of cell surface mAChR, implying that protein glycosylation plays a critical role in transport and/or incorporation of mAChR into the plasma membrane.
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PMID:Regulation of neuronal muscarinic acetylcholine receptor number by protein glycosylation. 394 Feb 94

A protein that stimulates neurite outgrowth of neuroblastoma cells has been solubilized with octyl glucoside from cell membranes of young rat brain. Neuroblastoma cells from clones N 18 and NIE 115 adhere and rapidly extend neurite-like processes when cells suspended in a serum-free medium are added to polystyrene wells coated with the protein. The activity of the solubilized substance is comparable to that of fibronectin and laminin. The following characteristics of the active substance are described: 1. The activity can be solubilized from membrane pellets with octyl glucoside but not with low or high salt. 2. The activity is destroyed by heating and by protease treatment. 3. The activity binds, at least partially, to gelatin. 4. Polyclonal antibodies to fibronectin or laminin do not inhibit the neurite-promoting effect of the solubilized substance. 5. Analysis of the octyl glucoside-solubilized active fractions with sodium dodecyl sulphate/polyacrylamide-gel electrophoresis does not detect any fibronectin or laminin, but the activity correlates to the occurrence of a 52 kilodalton protein on the gels. We discuss the possible biological role of the 52 kilodalton protein in the differentiation of central neurons and its relationship to other adhesive proteins, especially fibronectin, laminin and spreading factors.
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PMID:Adhesive membrane protein of rat brain enhances neurite outgrowth of neuroblastoma cells. 397 5

To compare the subcellular distribution of endogenously synthesized and exogenous gangliosides, cultured murine neuroblastoma cells (N1E-115) were incubated in suspension for 22 h in the presence of D-[1-3H]galactose or [3H]GM1 ganglioside, transferred to culture medium containing no radioisotope for periods of up to 72 hr, and then subjected to subcellular fractionation and analysis of lipid-sialic acid and radiolabeled ganglioside levels. The results indicated that GM2 and GM3 were the principal gangliosides in the cells with only traces of GM1 and small amounts of disialogangliosides present. About 50% of the endogenously synthesized radiolabelled ganglioside in the four major subcellular membrane fractions studied was recovered from plasma membrane and only 10-15% from the crude mitochondrial membrane fraction. In contrast, 45% of the exogenous [3H]GM1 taken up into the same subcellular membrane fractions was recovered from the crude mitochondrial fraction; less than 15% was localized in the plasma membrane fraction. The results are similar to those obtained from previously reported studies on membrane phospholipid turnover. They suggest that exogenous GM1 ganglioside, like exogenous phosphatidylcholine, does not intermix freely with any quantitatively major pool of endogenous membrane lipid.
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PMID:Studies on the turnover and subcellular localization of membrane gangliosides in cultured neuroblastoma cells. 400 Mar 96

L-Fucose and D-galactose in low concentrations (0.27 or 2.7 mM) inhibited the induction of active Na+ channels in mouse and human neuroblastoma cells when the monosaccharides were added to the culture medium for 4 days with the inducing agent dimethyl sulfoxide. Active Na+ ionophores were determined by measurement of the toxin-stimulated efflux of 86Rb from the cells. At the same time, the amount of a radioactive glycoprotein (Mr 200,000), which was shown previously to be associated with neurite and membrane preparations from cells with active Na+ channels, was decreased. Cell growth and viability were not affected. The nonphysiological isomer D-fucose or the addition of D-glucose in the same concentration did not inhibit differentiation. Vibrio cholerae neuraminidase, added to the cells prior to the stimulation of 86Rb efflux by veratridine and scorpion venom, was inhibitory. The implications of these findings, which suggest a key role for glycoproteins in at least a portion of the excitability process, are discussed.
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PMID:Specific monosaccharide inhibition of active sodium channels in neuroblastoma cells. 626 60

Addition of 50 micrograms/ml chloroquine to neuroblastoma cells 1 h before infection with temperature-sensitive mutant ts G31 (III) of vesicular stomatitis virus (VSV) prevented virus-induced cell fusion from occurring. Interestingly, addition of chloroquine after infection still inhibited cell fusion. Based on the number of fusion events required to produce the polykaryocytes observed, cell fusion was inhibited 92% when chloroquine was added 1 h post-infection and 77% when chloroquine was added 2 h post-infection. The inhibition of virus-induced cell fusion could not be accounted for by an inhibition of virus protein synthesis because the virus protein synthesis measured 6 h post-infection was 90% of that in untreated, infected cells with chloroquine added 1 h post-infection, and the same as untreated, infected cells when chloroquine was added 2 h post-infection. No virus proteins were made, however, when chloroquine was added before infection, which is consistent with a chloroquine-mediated inhibition of virus uncoating. The release of infectious virions was completely inhibited when chloroquine was added before infection or 1 or 2 h post-infection, which indicated an inhibition of virus maturation in the later stages of virus assembly. By indirect immunofluorescence the virus glycoprotein (G protein) could not be detected on the surface of chloroquine-treated, infected cells, but the G protein was present inside the treated cells. With 125I-labelled anti-G protein IgG, 16% of the G protein found on the surface of untreated, infected cells was on the cell surface when chloroquine was added 2 h post-infection. When chloroquine was removed from infected cells, the G protein accumulated at the cell surface, and this accumulation could not be prevented by tunicamycin, an inhibitor of glycosylation. Furthermore, galactose was incorporated into the G protein in the presence of chloroquine. Therefore, the VSV G protein was being synthesized and glycosylated in the presence of chloroquine but the drug prevented the expression of the glycoprotein at the cell surface during the final stages of G protein assembly.U
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PMID:Inhibition of vesicular stomatitis virus glycoprotein expression by chloroquine. 629 May 97

The bee venom neurotoxin apamin failed to affect 86Rb outflow and insulin release from rat pancreatic islets stimulated by D-glucose or the Ca2+-ionophore A23187. Apamin, in contrast to quinine or A23187, also failed to affect bioelectrical activity in mouse islet cells. These findings suggest that, like in erythrocytes, and at variance with the situation found in smooth muscle, liver or neuroblastoma cells, the Ca2+-activated K+ permeability in the pancreatic B-cell is resistant to apamin.
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PMID:Resistance to apamin of the Ca2+-activated K+ permeability in pancreatic B-cells. 641 94

The release of soluble P24 antigen into culture medium by common acute lymphoblastic leukemia (C-ALL) and neuroblastoma (NB) cell lines was studied. P24 release by C-ALL cells was detected using a solid phase indirect radioimmunometric assay (IRA) which combines the specificity of lectins and monoclonal antibodies (MoAb) and using immunoadsorption of labeled P24 in spent medium from cells incubated with 35S-methionine (met). No P24 was present in the medium of cells pulse labeled at 37 degrees C when they were placed at 4 degrees C, thus this is an active process. P24 release by NB cells could not be detected by IRA, but could be detected by immunoadsorption of spent medium of metabolically-labeled cells. The absence of IRA activity of P24 from NB spent medium was due to decreased glycosylation and thus no binding to the lectins employed in the IRA was observed. This was confirmed by lectin affinity chromatography which showed that P24 in the spent medium from C-ALL cells bound Ricinus communis agglutinin (RCA1), wheat germ agglutinin (WGA), concanavalin A (Con A), and lentil lectin (LcH), but not peanut agglutinin (PNA). P24 from NB cell spent medium did not bind to any of these lectins. The lectin affinity of P24 derived from lymphoblasts is consistent with the presence of N-linked oligosaccharide chains having N-acetyl glucosamine residues, a mannose core, and a terminal D-galactose. P24 from C-ALL cell spent medium was present in the 35-45% fraction of a saturated ammonium sulfate (SAS) partition of spent medium. The P24 antigen was detected in the fractionated plasma of five patients with C-ALL at the time of diagnosis and was undetectable when the patients had achieved a complete remission. Plasma from 2 patients with P24 negative ALL, normal human plasma, and normal human serum had no detectable activity.
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PMID:A monoclonal antibody (SJ-9A4) to P24 present on common alls, neuroblastomas and platelets - II. Characterization of P24 and shedding in vitro and in vivo. 657 91

Neuroblastoma and glioma cells were grown in the presence of [3H]galactose, and the incorporation of 3H into gangliosides and the transport of newly synthesized gangliosides to the cell surface were examined under different experimental conditions. A variety of drugs, including inhibitors of protein synthesis and energy metabolism, modulators of the cytoskeleton and the ionophore monensin, had no effect on the transport of newly synthesized GD1a in neuroblastoma cells. Only low temperature effectively blocked translocation to the plasma membrane. Monensin, however, had marked effects on the biosynthesis of gangliosides and neutral glycosphingolipids. Whereas incorporation of 3H into complex glycosphingolipids was reduced, labeling of glucosylceramide was increased in cells exposed to monensin. In addition, biosynthesis of the latter glycolipid was less susceptible to low temperatures than that of more complex ones. Previous studies have implicated the Golgi apparatus as the predominant site of glycosylation of gangliosides. As monensin has been reported to interfere with the Golgi apparatus, our results indicate that glucosylceramide may be synthesized at a site that is separate from the site where further glycosylation occurs. Once synthesis of a ganglioside is completed, transport of the molecule to the cell surface proceeds under conditions of cytoskeletal disruption, energy depletion and ionic inbalance , but not low temperature.
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PMID:Effect of drugs and temperature on biosynthesis and transport of glycosphingolipids in cultured neurotumor cells. 672 83

A high molecular weight glycoconjugate has been isolated from neurite-producing neuronal tumor cells in culture and has been designated as I(0) based on its elution characteristics in gel filtration chromatography. This molecule cannot be found in a variety of nonneuronal cells. I(0) is found in the substratum-attached material or cell fraction of neurite-producing neuroblastoma cells, depending upon culture conditions. It is found in the substratum-bound fraction of B104 rat neuroblastoma cells during serum starvation and in the EGTA-detached cell fraction of B104 cells grown in chemically defined N2 medium. It occurs only in the cell fraction of the human neuroblastoma line Platt. Examination of behavioral variants of the B104 rat line further strengthens the association of I(0) with neurite production; the constitutive neurite-producing E(R)B9 variant contains I(0) while the non-neurite-producing E(R)A11 variant does not. I(0) is large, eluting in the void volume of sepharose-CL2B columns. Radioiodination of intact cells with lactoperoxidase shows I(0) to be a cell surface component. Metabolic radiolabeling studies show that it contains a high proportion of polysaccharide to protein, does not contain mannose, and is unsulfated. Alkaline borohydride reduction release two size classes of large polysaccharide chain. The alkaline reduction results, along with the mannose incorporation studies, show the presence of O-glycosidic linkages and few, if any, N-linkages. Resistance to nitrous acid deamination, insensitivity to glycosaminoglycan lyases, and the absence of sulfation, indicate that I(0) does not contain the glycosaminoglycans hyaluronic acid, chondroitin-, dermatan-, or heparin- sulfates. Affinity column chromatography reveals high binding affinity of I(0) to polyornithine and no binding to gelatin (collagen) or the glycosaminoglycans hyaluronate and heparin. These studies describe a unique high molecular weight glycoconjugate on the surface of neurite-producing neuroblastoma cell lines from two species.
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PMID:Isolation and characterization of a large, neurite-associated glycoconjugate from neuroblastoma cells. 683 76


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