Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

As part of a more extensive study of the immune response in children with neuroblastoma, serum immunoglobulin and alpha-glycoprotein levels were measured in 58 patients. Twenty-nine children were studied at diagnosis, 18 at some time during the first 2 years of treatment, and 11 who were apparently cured after treatment had been completed. No correlation was found between the levels of IgG, IgA, and IgM and the clinical status of the patient. The acute phase reactants (alpha-1-antitrypsin, haptoglobin, C3 component of complement and orosomucoid) varied with the disease status. Twenty-seven of the 29 patients had elevated levels at the time of diagnosis. Alpha-1-antitrypsin and haptoglobin were the two proteins that most accurately reflection the clinical status; C3 component of complement was not infrequently normal when the disease was active; and orosomucoid was sometimes raised in patients apparently in remission. Serial measurement of alpha-1-antitrypsin and haptoglobin could provide a useful means of detecting early relapse in patients responding to treatment.
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PMID:The prognostic value of acute phase reactants in patients with neuroblastoma. 7 Nov 94

Several authors have observed that the plasma levels of carcinoembryonic antigen (CEA) in patients with neuroblastoma were significantly elevated. The present study was undertaken to investigate the nature of CEA activity in neuroblastoma tissue. This tumor tissue contains a small amount of CEA-like substance reacting with anti-CEA serum which is characterized by gamma-globulin electrophoretic mobility, a molecular weight that is approximately equal to that of albumin (4.6S) by gel filtration, and a glycoprotein staining with periodic acid-Schiff (PAS). According to the double immunodiffusion method, this antigen is partially identical to purified CEA of colon carcinoma, and is completely identical to nonspecific crossreacting antigen (NCA). This antigen is, therefore, referred to not as the CEA as described by Gold, but as NCA in neuroblastoma tissue. The elevation of plasma CEA activity in patients with neuroblastoma may be due to the release of NCA from tumor cells, or to the destruction tissues by metastasis, of normal which are rich in NCA, or to a combination of both.
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PMID:Immunologic and biochemical studies on the carcinoembryonic antigen-like substance in human neuroblastoma. 8 82

One to three-month-old A-strain mice, inoculated subcutaneously with 2 x 10(6) viable syngeneic C1300 neuroblastoma cells (clone NB9R) developed a palpable tumor within 9-12 days and died within 28-30 days. A transient glomerulopathy developed after 16-24 days. Despite a normal histologic appearance, the nephropathy was clearly demonstrated by electron microscopy and was classified as a focal mesangiopathic glomerulonephritis. Deposits of host 7S-G immunoglobulins and C3 complement fragments were detected in these same kidneys by immunofluorescence. Radioimmunoprecipitin determinations on sera obtained from mice at different intervals from tumor cell inoculation, revealed that untreated mice contained circulating antibodies capable of reacting with 125I-labeled gp69-71 glycoprotein from Gross murine leukemia virus (MuLV). Antibodies to p30 MuLV antigen and to crude membrane antigen (s) (CMA) solubilized from NB9R cells were found in sera only after tumor cell inoculation. Circulating immune complexes formed by host 7S-G immunoglobulins were clearly detected from day 16 to 22. Antibodies eluted from kidneys with nephropathy were shown to react with NB9R cells in vitro and to react specifically with CMA and the p30 MuLV antigen.
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PMID:Antibody formation and transient immune complex glomerulopathy in A-strain mice with C1300 neuroblastoma tumors. 14 55

The presence of 1.0mm-dibutyryl cyclic AMP (N(6),O(2')-dibutyryladenosine 3':5'-cyclic monophosphate) and 1.5mm-theophylline completely inhibits the growth of mouse neuroblastoma N2a cells by 24-36h. When compared with N2a cultures without inhibitors (controls), the proportion of cells in S phase, measured by radioautography with [(3)H]-thymidine, was decreased from 55 to 12%. In addition, the presence of the inhibitors decreased apparent [(3)H]fucose incorporation into glycoproteins by 50%, and removing the inhibitors resulted in a rapid recovery of both DNA synthesis and glycoprotein metabolism. Measurement of intracellular acid-soluble radioactive fucose revealed that decreased fucose uptake could account for the apparent change in incorporation. Removing dibutyryl cyclic AMP and theophylline from the medium resulted in a rapid uptake of radioactive fucose to within control values, which illustrated that the inhibitors decreased transport of the carbohydrate, although the cells remained viable. Treatment with dibutyryl cyclic AMP and theophylline also reversibly inhibited glycoprotein degradation. Plasma membranes isolated from growing cells and from growth-inhibited cells labelled with [(14)C]fucose and [(3)H]fucose respectively were co-electrophoresed on sodium dodecyl sulphate/polyacrylamide gels. These displayed no apparent differences in synthesis of specific membrane glycoproteins. Electrophoresis of plasma membranes isolated from cultures pulse-chased with [(14)C]fucose and [(3)H]fucose was used to discern turnover patterns of specific plasma-membrane glycoproteins. High-molecular-weight glycoproteins exhibited rapid rates of turnover in membranes from growing cells, but moderate turnover rates in growth-inhibited cells and cells reversed from growth inhibition. These data indicate that growth arrest of N2a cells results in alterations in the metabolic turnover of plasma-membrane glycoproteins.
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PMID:Growth and metabolism of fucosylated plasma-membrane glycoproteins in mouse neuroblastoma N2a cells. 21 51

A temperature sensitive mutant of vesicular stomatitis virus which does not mature properly when grown at 39 degrees C promoted extensive fusion of murine neuroblastoma cells at this nonpermissive temperature. Polykaryocytes apparently formed as a result of fusion from within the cells that requires low doses of infectious virions for its promotion and is dependent on viral protein synthesis. Although 90% of infected N-18 neuroblastoma cells were fused by 15 h after infection, larger polykaryocytes continued to form, leading to an average of 28 nuclei per polykaryocyte as a result of polykaryocytes fusing to each other. Two neuroblastoma cell lines have been observed to undergo fusion, whereas three other cell lines (BHK-21, CHO, and 3T3) were incapable of forming polykaryocytes, suggesting that nervous system-derived cells are particularly susceptible to vesicular stomatitis virus-induced fusion. Although the normal assembly of the protein components of this virus is deficient at 39 degrees C, the G glycoprotein was inserted into the infected cell membranes at this temperature. Two lines of evidence suggest that the expression of G at the cell surface promotes this polykaryocyte formation: (i) inhibition of glycosylation, which may be involved in the migration of the G protein to the cellular plasma membranes, will inhibit the cell fusion reaction; (ii) addition of antiserum, directed toward the purified G glycoprotein, will also inhibit cell fusion.
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PMID:Neuroblastoma cell fusion by a temperature-sensitive mutant of vesicular stomatitis virus. 22 47

The metabolism of neuroblastoma cell glycoproteins was examined using L-E13H]fucose. Incubation of monolayer cultures with [3H]fucose resulted in a rapid uptake of the radioactive precursor and its incorporation into acid-insoluble macromolecules. Less than 3% of the [3H]fucose that was isolated from neuroblastoma cells by trichloroacetic acid precipitation was associated with glycolipids. The metabolism of fucosylated macromolecules was studied in cells which were labelled to a steady state, and then reincubated under conditions which limited reutilization of the radioactive precursor (40 mM unlabelled fucose). During reincubation of the cells, we observed a rapid metabolism (27% by 2 h) of the prelabelled macromolecules which stabilized within a cell generation time to give an overall rate of turnover of 9%. This rapid loss of radioactivity from the cells was not due to exocytosis since less than 4% of the [3H]-fucose was lost into the media as macromolecules during a 5 h reincubation period. The presence of 40 mM fucose in the media did not affect cell growth until after 24 h of incubation or cellular protein synthesis until after 15 h of incubation. When the metabolism of neuroblastoma cell glycoproteins was measured in the presence of 1.8 - 10(-4) M cycloheximide, there appeared to be a less rapid decrease in cell-associated specific activity, and an increased reutilization of [3H]fucose. Although the major proportion of the radioactivity remained as e13H]fucose, extensive incubation of neuroblastoma cells with this radioactive precursor led to increased amounts of tritium associated with other cellular components; However, a rapid rate of glycoprotein metabolism could also be demonstrated with cells incubated with [14C]fucose. This eliminated the possibility that the above results were restricted to the tritiated precursor and merely a reflection of hydrogen-tritium exchange.
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PMID:Rapidly metabolized glycoproteins in a neuroblastoma cell line. 87 78

When monolayer cultures of neuroblastoma N2a cells were prelabelled with [(3)H]fucose to steady state, and then reincubated in complete medium in the presence of unlabelled 40mm-l-fucose, there was a rapid metabolism of fucosylated cellular macromolecules and the specific radioactivity of the acid-insoluble material decreased by 22% within 2h. After this period of time the remaining radioactive glycoproteins appeared to be more stable and the rate of loss of specific radioactivity markedly decreased. Since fucose is known to be associated predominantly with plasma-membrane components, the analysis of fucosylated glycoproteins was characterized in plasma-membrane fractions by polyacrylamide-gel electrophoresis. Two experimental approaches were used to measure glycoprotein degradation and turnover in the cell-surface membranes. In one set of experiments, with a similar incubation procedure to that used with intact cells, three membrane components were rapidly degraded (150000, 130000 and 48000 daltons), but another surface glycoprotein (68000 daltons) appeared to be more slowly metabolized than the mean rate of glycoprotein degradation. The relationship of the degradation of membrane glycoproteins to their turnover was analysed by dual-label experiments that used both [(14)C]fucose and [(3)H]fucose. Glycoproteins of the surface membrane of neuroblastoma cells were found to turn over at heterogeneous rates. The components mentioned above that exhibited significantly rapid rates of degradation, were also shown to turn over more rapidly than the average surface component. In addition to the membrane components detected by the use of only [(3)H]fucose, dual-label experiments illustrated that numerous surface glycoproteins were metabolized more rapidly or slowly than most of the cell-surface constituents.
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PMID:The degradation and turnover of fucosylated glycoproteins in the plasma membrane of a neuroblastoma-cell line. 91 19

Northern blot, immunoprecipitation, and gel electrophoretic data demonstrate that the mouse neuroblastoma NB2a/d1 cells express ependymin mRNA and synthesize and release into the culture medium a protein with immunoreactivity and electrophoretic mobility properties identical to ependymin. This is a brain extracellular glycoprotein that has been implicated in the consolidation process of memory formation and neuronal regeneration. In labeling experiments with 35S-methionine, dibutyrylcyclic3',5'-adenosine-monophosphate (dbcAMP) was found to stimulate the expression of ependymin mRNA and the enhanced synthesis and release of ependymin into the culture medium at the same time that dbcAMP stimulation of neurite outgrowth takes place. These results are consistent with the proposed role of the protein in the mechanism of neuronal regeneration and synaptogenesis. The data indicate that the NB2a/d1 cell line is a good model system for studies of the functional properties of ependymin.
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PMID:Dibutyryl cyclic AMP stimulates expression of ependymin mRNA and the synthesis and release of the protein into the culture medium by neuroblastoma cells (NB2a/d1). 132 62

A glycoprotein, M(r) 200,000, which has the biological activity of the neurotoxin-responsive Na+ channel, was isolated from a clonal line of mouse neuroblastoma cells, N-18. The glycoprotein was purified to homogeneity in 18% yield by methods used to purify glycoproteins, which included metabolic labeling of the cells with L-[3H]fucose and binding of the radioactive glycoproteins to WGA- and lentil-Sepharose, and DEAE-cellulose. The glycoprotein has biological activity of neurotoxin-responsive ion flux when reconstituted into artificial phospholipid vesicles. This activity was shown to depend on the presence of sialic acid since treatment of the purified, reconstituted glycoprotein with Vibrio cholerae neuraminidase abolished the response to neurotoxins of 86Rb flux. The [3H]fucose-containing glycopeptides derived by Pronase digestion of the glycoprotein were characterized by affinity to immobilized lectins and contained di-, tri-, and tetra-antennary oligosaccharides in a ratio of 2:4:3. Most of the glycopeptides were sialylated as shown by binding characteristics to immobilized serotonin-Sepharose with and without neuraminidase. The structure of the diantennary oligosaccharides was elucidated by 500-MHz 1H NMR spectroscopy. The Con A-bound fraction contains alpha-NeuNAc-(2-->6)-bound group on the GlcNAc5' antenna and an alpha-NeuNAc-(2-->3)-bound groups on the GlcNAc5 antenna. An alpha-L-fucosyl group is (1-->6)-bound to the Asn core GlcNAc1 residue.
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PMID:Oligosaccharide composition of the neurotoxin-responsive sodium channel of mouse neuroblastoma and requirement of sialic acid for biological activity. 133 66

Oncostatin-M (OM), a recently described glycoprotein cytokine, is structurally and functionally related to cholinergic differentiation factor/leukemia inhibitory factor (CDF/LIF) and ciliary neurotrophic factor (CNTF). To determine whether OM, like CDF/LIF and CNTF, possesses trophic or differentiative functions for neurons we examined the effects of recombinant human OM on ciliary neuron survival and neurotransmitter expression in sympathetic neurons. Like CDF/LIF, but in contrast to CNTF, OM had no effect on ciliary neuronal survival at any concentration tested. OM produced small but reproducible increases in choline acetyl transferase (ChAT) activity and vasoactive intestinal peptide (VIP) levels in rat sympathetic neuron cultures, but this effect was significantly less than that of CNTF or CDF/LIF. To determine if human OM would elicit a more robust response from human cells, we utilized a human neuroblastoma cell line, NBFL, that responds to CNTF and CDF/LIF by altering vasoactive intestinal peptide (VIP) levels. OM specifically elevated VIP and c-fos mRNA levels in NBFL cells and was as potent as CDF/LIF in this assay. Our data provides evidence that OM acts on neurons and identifies a neural cell line responsive to OM, CNTF, CDF/LIF.
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PMID:Oncostatin M regulates VIP expression in a human neuroblastoma cell line. 142 Oct 89


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