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Query: UMLS:C0017638 (
glioma
)
30,880
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Primary astrocyte cultures, C6
glioma
cells, and N18 neuroblastoma cells were assayed for nitric oxide synthase (NOS) activity with a bioassay of cyclic GMP production in RFL-6 fibroblasts. Treatment of astrocyte cultures for 16-18 h with lipopolysaccharide (LPS) induced NOS-like activity that was L-arginine and NADPH dependent, Ca2+ independent, and potentiated by
superoxide dismutase
. Induction was evident after 4 h, was dependent on the dose of LPS, and required protein synthesis. Treatment of astrocyte cultures with leucine methyl ester reduced microglial cell contamination from 7 to 1%, with a loss of 44% of NOS-like activity. C6 cells treated with LPS also showed Ca(2+)-independent and L-arginine-dependent NOS-like activity. N18 cells demonstrated constitutive Ca(2+)-dependent NOS-like activity that was not enhanced by LPS induction. These data indicate that NOS-like activity can be induced in microglia, astrocytes, and a related
glioma
cell line as it can in numerous other cell types, but not in neuron-like N18 cells.
...
PMID:Induction of nitric oxide synthase in glial cells. 137 33
Biological effects of human natural tumor necrosis factor-alpha (TNF) on glioblastoma cells in vitro and on
glioma
patients were investigated. TNF treatment on glioblastoma cells, even at a high dose (256 U/ml), exhibited no remarkable cytocidal activity in MTT assay, but at lower doses significantly inhibited colony forming and DNA synthesis. TNF at a low dose (10 U/ml) stimulated production of prostaglandin E2, Mn-
superoxide dismutase
, interleukin (IL)-6 and IL-8 by glioblastoma cells. These results indicated that the direct effect of TNF on human glioblastoma cells is rather antiproliferative than cytotoxic and is to modulate their metabolic pathways. In an early Phase I clinical trial, TNF was administered intracranially to six patients bearing glioblastoma. In this trial, the author studied in vivo immunological responses in the cerebrospinal fluid and regional fluid after the regional TNF injections. TNF in these body fluids were detected with a half life of several hours. There occurred a substantial number of leukocyte migration after the TNF administration. Neutrophils appeared first peaking at 8 to 12 hours, and then CD4+CD8-T cells and CD11b+CD13+CD14+ monocytes followed. IL-8 activity in the cerebrospinal fluid simultaneously corresponded to peak of the neutrophil migration. Increases in IL-6, IL-1 beta and prostaglandin E2 levels in the cerebrospinal fluid, regional fluid or both occurred peaking at 8 to 12 hours after TNA infection. Neither IL-2 nor interferons was detected. In conclusion, TNF may act as an antineoplastic agent by its direct cytostatic effects and indirectly through immune modulatory effects.
...
PMID:[In vitro and in vivo immunobiological responses of glioblastoma to human natural tumor necrosis factor-alpha]. 142 94
Disruption of blood brain barrier with increased vascular permeability is associated with genesis of peritumoural oedema. Oxygen free radicals play a role in increased vascular permeability. Recent studies have suggested that tumour cells can produce superoxide radicals and free radical scavengers such as
superoxide dismutase
(
SOD
) and catalase in tumour cells are impaired. In this study, we investigated the role of oxygen free radicals in the genesis of peritumoural brain oedema in experimental malignant brain tumours using V x 2 carcinoma cells and 9L
glioma
cells. In vitro data indicate that the V x 2 carcinoma cell and the 9L
glioma
cells produce superoxide radicals detected by nitroblue tetrazolium. Electron spin resonance spectroscopy using DMPO as a spin trap demonstrated that
SOD
activity was significantly lower in subcutaneous larger 9L
glioma
tumours than in normal brains and 9L
glioma
brain tumours. In the subcutaneous tumours,
SOD
activity was lower in the central portion of the tumour than in the peripheral portion of the tumour. In conclusion, we are not sure whether oxygen free radicals are major causative factors of peritumoural brain oedema, but the demonstration of oxygen free radicals in brain tumour cells needs further investigation.
...
PMID:Oxygen free radicals in the genesis of peritumoural brain oedema in experimental malignant brain tumours. 196 70
The intensity of formation of superoxide radicals (O(-2)) and
superoxide dismutase
(
SOD
) activity in the tissue of two transplantable gliomas were examined. The cells of these tumors were marked by unbalance between the intensity of O(-2) formation by nuclear membranes and their detoxication of
SOD
. This unbalance was particularly demonstrable in
glioma
35 which was marked by rapid growth and high sensitivity to adriamycin. Slow-growing
glioma
was noted for higher activity of
SOD
and was insensitive to adriamycin. Since it is known that anthracycline antibiotics raise the intensity of the formation of free oxygen radicals in tumor cells, the data obtained suggest that the intensity of formation and detoxication of O(-2) may be used for the assessment of the sensitivity to these drugs.
...
PMID:[The role of the system of superoxide radical formation and detoxication in the mechanism of the antineoplastic effect of adriamycin]. 631 11
The resistance of
glioma
cells to radiations may be diminished by previous ethanol or oxygen treatment. When rat
glioma
C6 cells were treated with either 50 mM or 100 mM ethanol in the culture medium before X ray irradiation (1000 rads), the surviving cells decrease two weeks later by about 40% compared with irradiated non treated cells. We suggest that the greater cell death after irradiation of alcohol treated
glioma
cells in culture may partially result from an accumulation of cytotoxic O = 2 radicals, since
superoxide dismutase
activity was reduced under these conditions.
...
PMID:Sensitivity to X ray irradiation of alcohol treated glioma cells in culture. 652 48
Although tumor necrosis factor-alpha (TNF) has been applied to early clinical trials for patients with malignant
glioma
, majority of human
glioma
cells has been reported to be resistant to TNF cytocidal effect in vitro. This study investigated antiproliferative effect of the TNF associated with induction of differentiation and expression of two distinct TNF receptors on human glioblastoma cell lines. The expression of p55 and p75 TNF receptors on 12 human glioblastoma cell lines was assessed by polymerase chain reaction and flow cytometry. p55 TNF receptor was detected in all cell lines, and only 4 cell lines concomitantly expressed p75 TNF receptor. Twelve human glioblastoma cell lines were treated with low-dose TNF, up to 256 U/ml for 7 days. TNF did not exhibit its cytocidal effect, but showed antiproliferative effects with inhibition of DNA synthesis in majority of cell lines tested. Flow cytometry with the bromodeoxyuridine-propidium iodide dual staining technique demonstrated that this antiproliferative effect of TNF was attributed to accumulation of glioblastoma cells in G0/G1 phase, suppressing the proliferative pathway. Furthermore the TNF stimulation increased glial fibrillary acidic protein and production of bioactive molecules including interleukin(IL)-6, IL-8, granulocyte-macrophage colony stimulating factor, prostaglandin E2 and manganous
superoxide dismutase
. In conclusion, human glioblastoma cells had p55 TNF receptor as a functional receptor and well responded to low-dose TNF stimulation, but not susceptible TNF cytocydal effect. The effect of TNF on glioblastoma cells appeared to modulate cell differentiation. TNF may be utilized as an agent for a differentiation therapy for human glioblastomas.
...
PMID:[Antiproliferative effect of tumor necrosis factor-alpha on human glioblastoma cells]. 777 79
Oxygen radicals induce cytotoxicity via a variety of mechanisms, including DNA damage, lipid peroxidation and protein oxidation. Here, we explore the use of a polyethylene glycol (PEG)-stabilised enzyme capable of producing reactive oxygen species (ROS), glucose oxidase (GO), for the purpose of harnessing the cytotoxic potential of ROS for treating solid tumours. PEG-GO (200 U), administered by two intratumoral injections 3 h apart, produced a significant growth delay in subcutaneous rat 9L gliomas as compared with control animals receiving heat-denatured PEG-GO. Rats were protected from systemic toxicity by subsequent i.v. administration of PEG-
superoxide dismutase
(PEG-SOD) and PEG-catalase. In vivo tumour metabolic changes, monitored using 31P magnetic resonance spectroscopy (31P-MRS) 6 h following initial administration of PEG-GO, revealed a 96 +/- 2% reduction in the ATP/Pi ratio and a 0.72 +/- 0.10 unit decline in intracellular pH. A 3-fold sensitisation of 9L
glioma
cells in vitro to hydrogen peroxide could be achieved by a 24 h preincubation with buthionine sulphoximine (BSO). This study suggests that oxidation therapy, the use of an intratumoral ROS-generating enzyme system for the treatment of solid tumours, is a promising area which warrants further exploration.
...
PMID:Oxidation therapy: the use of a reactive oxygen species-generating enzyme system for tumour treatment. 798 Oct 65
The effects of intracellularly generated H2O2 on cell viability, morphology, and biochemical markers of injury have been investigated in a clonal cell line of neuronal origin (140-3, mouse neuroblastoma X rat
glioma
) as a cell culture model for the role of oxidative stress in the long-term loss of neurons in the brain. The H2O2 was generated from the redox cycling of menadione, or by the oxidation of serotonin catalyzed by monoamine oxidase, to simulate the effect of amine neurotransmitter turnover. Incubation with menadione at concentrations as low as 10 microM for several hours resulted in significant losses of cell viability and altered morphology. Similar effects were evident in the presence of serotonin only after incubation overnight with concentrations > 1 mM. The cytotoxicity of either agent was potentiated by preincubation with specific inhibitors of two enzymes important to cellular antioxidant defenses, 3-amino-1,2,4-triazole for catalase and 1,3-bis(chloromethyl)-1-nitrosourea for glutathione reductase. Activity of another antioxidant enzyme of particular importance to antioxidant defenses in brain, the selenoprotein glutathione peroxidase, was stimulated fourfold by growth of cultures in the presence of sodium selenite as a source of active-site Se for the enzyme. The only effect of the selenite on other functionally coupled antioxidant enzymes was a decrease in activity of
superoxide dismutase
at concentrations > 200 nM. The selenite substantially protected cells against oxidative stress induced by combinations of menadione, 3-amino-1,2,4-triazole, and 1,3-bis(chloromethyl)-1-nitrosourea, but was only marginally effective with serotonin as a source of oxidative stress. The monoamine oxidase inhibitor pargyline increased cell survival in the presence of serotonin, demonstrating the role of this enzyme in its cytotoxicity. DNA damage (single strand breaks), but not lipid peroxidation, correlated with the cytotoxic effects of menadione.
...
PMID:Oxidative stress in a clonal cell line of neuronal origin: effects of antioxidant enzyme modulation. 849 17
Incubation with L-DOPA induced a rise in GSH level in cultures of fetal rat mesencephalon, mouse neuroblastoma (Neuro-2A), human neuroblastoma (SK-N-MC), pig kidney epithelial cells (LLC-PK1), and glia from newborn rat brain, but not C6
glioma
cells or neuronal cultures (no glia) from the mesencephalon. The pure neuronal cultures were destroyed by incubation with L-DOPA; added ascorbic acid or
superoxide dismutase
protected the cells. Washout of L-DOPA after 48 h amplified the rise in GSH content in mixed cultures (neurons plus glia). Examination of structure-activity relationships for elevating GSH levels in responsive cell types revealed that autooxidizable compounds (alpha-methyl-DOPA, dopamine, apomorphine, catechol, and hydroquinone) behaved similarly to L-DOPA, whereas structural analogues that cannot undergo autooxidation (3-O-methyl-DOPA, tyrosine, 2,4-dihydroxyphenylalanine, and resorcinol) failed to elevate GSH levels. Therefore, up-regulation of GSH appears to be a response to a mild oxidative stress. When mixed mesencephalic cultures were exposed to a strong oxidant stress by incubation with tert-butyl hydroperoxide, a loss in viability was seen. Cultures pretreated with L-DOPA or hydroquinone were protected from loss of viability. However, when cultures were pretreated with both L-DOPA and ascorbate, which prevents the rise in GSH level, protection was lost, in accord with the failure to up-regulate GSH. These results show that the up-regulation of cellular GSH evoked by autooxidizable agents is associated with significant protection of cells. Glia play an essential role in the response of mesencephalic cell cultures. An ability to up-regulate GSH may serve a protective role in vivo.
...
PMID:L-DOPA up-regulates glutathione and protects mesencephalic cultures against oxidative stress. 859 19
NBXFO hybridoma cells produced both the membrane and secreted isoforms of macrophage colony-stimulating factor (M-CSF). Murine bone marrow cells stimulated by the secreted form of M-CSF (sM-CSF) became Mac1+, Mac2+, Mac3+, and F4/80+ macrophages that inhibited the growth of NBXFO cells, but not L1210 or P815 tumor cells. In cytotoxicity studies, M-CSF activated macrophages and freshly isolated macrophages killed NBXFO cells in the presence of polymyxin B, eliminating the possibility that contaminating lipopolysaccharide (LPS) was responsible for the delivery of the cytotoxic signal. Retroviral-mediated transfection of T9
glioma
cells with the gene for the membrane isoform of M-CSF (mM-CSF), but not for the secreted isoform of M-CSF, transferred the ability of macrophages to kill these transfected T9 cells in a mM-CSF dose-dependent manner. Macrophage-mediated killing of the mM-CSF transfected clone was blocked by using a 100-fold excess of recombinant M-CSF. Catalase,
superoxide dismutase
, and the nitric oxide inhibitor, N-omega-nitro-arginine methyl ester (NAME), did not effect macrophage cytotoxicity against the mM-CSF transfectant T9 clones. T9 parental cells when cultured in the presence of an equal number of the mM-CSF transfectant cells were not killed, indicating specific target cell cytotoxicity by the macrophages. Electron microscopy showed that macrophages were capable of phagocytosizing mM-CSF bearing T9 tumor cells and NBXFO hybridoma cells; this suggested a possible mechanism of this cytotoxicity. This study indicates that mM-CSF provides the necessary binding and triggering molecules through which macrophages can initiate direct tumor cell cytotoxicity.
...
PMID:Macrophages can recognize and kill tumor cells bearing the membrane isoform of macrophage colony-stimulating factor. 865 38
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