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Query: UMLS:C0027819 (
neuroblastoma
)
27,800
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The validity of permeabilized cells as a model of DNA and RNA synthesis was studied with the use of mouse S-49
lymphoblastoma
cells rendered permeable by exposure to L-alpha-lysophosphatidylcholine. The permeabilized cells readily incorporated exogenously supplied cytosine and uracil nucleotides into HClO4-insoluble macromolecular material. However, the incorporation of these tracers did not require the three other complementary nucleotides, and adenine, guanine or thymine nucleotide tracers were incorporated at much lower rates. These results, which were also obtained with permeabilized Abelsohn-leukaemia-virus-transformed mouse macrophages, mouse
neuroblastoma
cells and S-49
lymphoblastoma
homogenates, are inconsistent with semi-conservative DNA replication or RNA transcription; rather, they suggest the involvement of terminal nucleotidyltransferase(s) that mediate the incorporation of uracil and cytosine nucleotides. DNA synthesis was restored when permeabilized cells or cellular homogenates were supplemented with denatured salmon testes DNA. These results suggest that endogenous cellular DNA is impaired in its function as a template for DNA replication and transcription in vitro. Metabolic channelling or compartmentation of nucleic-acid-precursor pathways could not be demonstrated in the permeabilized cells.
...
PMID:Incorporation of nucleotide tracers into nucleic acids in permeabilized cells and cellular homogenates. 243 80
N-glycans of the mouse glycoprotein HSA and its human analogue CD24 from
lymphoblastoma
,
neuroblastoma
and astrocytoma cell lines as well as from mouse brain homogenate were analysed and compared to each other and to the N-glycosylation pattern of total glycoproteins from mouse and human brain. The N-glycans were released from PVDF-blotted HSA or CD24 and separated on Carbograph SPE into neutral and acid glycans. The naturally neutral glycan fraction and the fraction of glycans rendered neutral after neuraminidase treatment were analysed without further purification by MALDI-MS. In each fraction, about 25 molecular ions with an intensity >10% of the base peak were identified which corresponded to glycans with distinct isobaric monosaccharide compositions. Comparison of the neutral and desialylated glycans revealed some similarities between the samples analysed, but also clear differences. HSA and CD24 from all cell lines express almost no neutral N-glycans with two or more fucose in contrast to brain HSA and glycoproteins from mouse and human brain. The lack of extensive fucosylation was also observed for desialylated glycans of HSA and CD24 from all cell lines analysed except for CD24 from a human
neuroblastoma
cell line which exhibits like total human and mouse brain glycoproteins a large variety of highly fucosylated, higher branched N-glycans. HSA from mouse brain carries in addition desialylated non-fucosylated glycans of high abundance which were detected, if at all, only at low intensity in all other samples analysed suggesting that they may be implicated in specific functions of mouse brain HSA. Therefore, a rapid assessment of similarities or differences between glycosylation patterns of a glycoprotein isolated from different sources is possible using methods as described here.
...
PMID:N-glycosylation patterns of HSA/CD24 from different cell lines and brain homogenates: a comparison. 1282 73
Li(+)/Mg(2+) competition has been implicated in the therapeutic action of Li(+) treatment in bipolar illness. We hypothesized that this competition depended on cell-specific properties. To test this hypothesis, we determined the degree of Li(+) transport, immobilization, and Li(+)/Mg(2+) competition in lymphoblastomas, neuroblastomas, and erythrocytes. During a 50 mM/L Li(+)-loading incubation, Li(+) accumulation at 30 min (mmoles Li(+)/L cells) was the greatest in lymphoblastomas (11.1+/-0.3), followed by neuroblastomas (9.3+/-0.5), and then erythrocytes (4.0+/-0.5). Li(+) binding affinities to the plasma membrane in all three cell types were of the same order of magnitude; however, Li(+) immobilization in intact cells was greatest in neuroblastomas and least in erythrocytes. When cells were loaded for 30 min in a 50 mM/L Li(+)-containing medium, the percentage increase in free intracellular [Mg(2+)] in
neuroblastoma
and
lymphoblastoma
cells ( approximately 55 and approximately 52%, respectively) was similar, but erythrocytes did not exhibit any substantial increase ( approximately 6%). With the intracellular [Li(+)] at 15 mM/L, the free intracellular [Mg(2+)] increased by the greatest amount in neuroblastomas ( approximately 158%), followed by lymphoblastomas ( approximately 75%), and then erythrocytes ( approximately 50%). We conclude that Li(+) immobilization and transport are related to free intracellular [Mg(2+)] and to the extent of Li(+)/Mg(2+) competition in a cell-specific manner.
...
PMID:Effects of Li(+) transport and Li(+) immobilization on Li(+)/Mg(2+) competition in cells: implications for bipolar disorder. 1459 49
Li(+) transport, intracellular immobilisation and Li(+)/Mg(2+) competition were studied in Li(+)-loaded bovine chromaffin cells. Li(+) influx rate constants, k(i), obtained by atomic absorption (AA) spectrophotometry, in control (without and with ouabain) and depolarising (without and with nitrendipine) conditions, showed that L-type voltage-sensitive Ca(2+) channels have an important role in Li(+) uptake under depolarising conditions. The Li(+) influx apparent rate constant, k(iapp), determined under control conditions by (7)Li NMR spectroscopy with the cells immobilised and perfused, was much lower than the AA-determined value for the cells in suspension. Loading of cell suspensions with 15 mmol l(-1) LiCl led, within 90 min, to a AA-measured total intracellular Li(+) concentration, [Li(+)](iT)=11.39+/-0.56 mmol (l cells)(-1), very close to the steady state value. The intracellular Li(+) T(1)/T(2) ratio of (7)Li NMR relaxation times of the Li(+)-loaded cells reflected a high degree of Li(+) immobilisation in bovine chromaffin cells, similar to
neuroblastoma
, but larger than for
lymphoblastoma
and erythrocyte cells. A 52% increase in the intracellular free Mg(2+) concentration, Delta[Mg(2+)](f)=0.27+/-0.05 mmol (l cells)(-1) was measured for chromaffin cells loaded with the Mg(2+)-specific fluorescent probe furaptra, after 90-min loading with 15 mmol l(-1) LiCl, using fluorescence spectroscopy, indicating significant displacement of Mg(2+) by Li(+) from its intracellular binding sites. Comparison with other cell types showed that the extent of intracellular Li(+)/Mg(2+) competition at the same Li(+) loading level depends on intracellular Li(+) transport and immobilisation in a cell-specific manner, being maximal for
neuroblastoma
cells.
...
PMID:Effects of Li+ transport and intracellular binding on Li+/Mg2+ competition in bovine chromaffin cells. 1511 Sep 89
Possible biological effects of mobile phone microwaves were investigated in vitro. In this study, which was part of the 5FP EU project REFLEX (Risk Evaluation of Potential Environmental Hazards From Low-Energy Electromagnetic Field Exposure Using Sensitive in vitro Methods), six human cell types, immortalized cell lines and primary cells, were exposed to 900 and 1800 MHz. RNA was isolated from exposed and sham-exposed cells and labeled for transcriptome analysis on whole-genome cDNA arrays. The results were evaluated statistically using bioinformatics techniques and examined for biological relevance with the help of different databases. NB69
neuroblastoma
cells, T lymphocytes, and CHME5 microglial cells did not show significant changes in gene expression. In EA.hy926 endothelial cells, U937
lymphoblastoma
cells, and HL-60 leukemia cells we found between 12 and 34 up- or down-regulated genes. Analysis of the affected gene families does not point towards a stress response. However, following microwave exposure, some but not all human cells might react with an increase in expression of genes encoding ribosomal proteins and therefore up-regulating the cellular metabolism.
...
PMID:Gene expression changes in human cells after exposure to mobile phone microwaves. 1687 93
The reported reduction in cancer risk in those suffering from schizophrenia may be because antipsychotic medications have antineoplastic effects. In this study, 6 antipsychotic agents with a range of structural and pharmacological properties (reserpine, chlorpromazine, haloperidol, pimozide, risperidone and olanzapine), were screened for their effect on the viability of cell lines derived from
lymphoblastoma
,
neuroblastoma
, non-small cell lung cancer and breast adenocarcinoma. We aimed to determine if antipsychotic drugs in general possess cancer-specific cytotoxic potential, and whether it can be attributed to a common mode of action. With the exception of risperidone, all drugs tested displayed selective inhibition of the viability of cancer cell lines compared with normal cells. Using Affymetrix expression microarrays and quantitative real-time polymerase chain reaction, we found that for the antipsychotic drugs, olanzapine and pimozide, cytotoxicity appeared to be mediated via effects on cholesterol homeostasis. The role of cholesterol metabolism in the selective cytotoxicity of these drugs was supported by demonstration of their increased lethality when coadministered with a cholesterol synthesis inhibitor, mevastatin. Also, pimozide and olanzapine showed accelerating cytotoxic effects from 12 to 48 hr in time course studies, mirroring the time-dependent onset of cytotoxicity induced by the amphiphile, U18666A. On the basis of these results, we concluded that the Class II cationic amphiphilic properties of antipsychotic drugs contribute to their cytotoxic effects by acting on cholesterol homeostasis and altering the biophysical properties of cellular membranes, and that drugs affecting membrane-related cholesterol pathways warrant further investigation as potential augmentors of standard cancer chemotherapy.
...
PMID:Cytotoxic effects of antipsychotic drugs implicate cholesterol homeostasis as a novel chemotherapeutic target. 1966 52
