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:C0017638 (glioma)
30,880 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Glutathione (GSH) depletion by buthioninine sulfoximine (BSO) is being explored clinically as a means of enhancing the efficacy of cancer chemotherapy. We investigated the kinetics of GSH depletion and altered gamma-L-glutamyl-L-cysteine synthetase (gamma-GC-S) gene expression in two human malignant glioma cell lines, HBT5 and HBT28, and examined how these relate to GSH resynthesis and changes in DNA interstrand cross-link induction and cytotoxicity of 1,3-bis(2-chloroethyl)-nitrosourea (BCNU). GSH content was 54 and 126 nmol/mg/protein in HBT 5 and HBT 28, respectively, and after a 24-hr exposure to 100 microM BSO was decreased by 95% in HBT 5 and 91% in HBT 28. Basal gamma-GC-S enzyme activity in HBT 28 was twice that in HBT 5, and steady state gamma-GC-S gene transcripts were 2.6-fold higher in HBT 28 than in HBT 5, with no apparent amplification or rearrangement of the gene in either cell line. BSO exposure (100 microM) for 24 hr increased gamma-GC-S gene transcripts by 1.7-fold in HBT 5 and 2.8-fold in HBT 28. After BSO removal, the rate of GSH resynthesis in HBT 28 was twice that in HBT 5. Continuous BSO exposure increased the level of BCNU-induced DNA interstrand cross-links, and cytotoxicity was significantly higher in cells exposed continuously to BSO than in cells with only a 24-hr BSO preexposure. This increase was, however, greater in HBT 28 than in HBT 5. These findings indicate significant heterogeneity in the effects of BSO on gamma-GC-S gene expression and in the ability of BSO to sensitize tumors and cell lines to BCNU. The data also suggest that by preventing GSH resynthesis, a greater level of cytotoxicity is achieved with continuous BSO exposure than with BSO preexposure alone.
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PMID:Buthionine sulfoximine induction of gamma-L-glutamyl-L-cysteine synthetase gene expression, kinetics of glutathione depletion and resynthesis, and modulation of carmustine-induced DNA-DNA cross-linking and cytotoxicity in human glioma cells. 864 39

Malignant gliomas are often treated with cisplatin (cis-diamminedichloroplatinum(II), CDDP) and radiation but results remain unsatisfactory. To investigate whether CDDP induces radioresistance in glioma, T98G human glioblastoma cells were pretreated 5 times with 10(-6)M CDDP for 24 hours and then the sensitivity of wild type (wt) and pretreated cells towards radiation (9Gy 60Co) and CDDP was tested in a colorimetric assay (MIT). The growth rates of wt and pretreated cells were 1.8 +/-0.2 and 3.1 +/- 0.2 respectively (p = 0.000155) 216 hours post radiation. Pretreated cells also developed resistance to CDDP (resistance factor 2.35). Glutathione (GSH) which potentially mediates resistance to both treatments was measured. Incubation for 6 hours with 10(-5) M CDDP increased GSH levels by a factor of 2.28 (p < 0.0001). However, neither basal nor increased levels differed between wt and pretreated cells. These data show that CDDP pretreatment can induce resistance against radiation and CDDP independently of GSH.
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PMID:Cisplatin induces radioprotection in human T98G glioma cells. 913 60

C6 glioma cells treated with 10 mM glutamate reduced intracellular GSH to one-seventh of the initial level, and induced cytolysis accompanied by apoptosis. The treated cells produced extracellular H2O2. The cytolysis of the C6 cells induced by glutamate was prevented by antioxidants such as N-acetylcysteine (NAC), ascorbic acid (ASC), catalase, and NaN3, iron chelators such as deferoxamine and 1,10-phenanthroline, and oxygen radical scavengers such as 5,5'-dimethyl-1-pyrroline-N-oxide (DMPO) and alpha-phenyl-tert-butyl nitrone (PBN). The effect of these antioxidants, iron chelators, and oxygen radical scavengers on the cytolysis of C6 cells was dependent on the dose and the intracellular GSH level. Furthermore, 1-2 Mbp chromosomal DNA (giant DNA) fragments were observed during cytolysis. The giant DNA fragments were further cleaved into smaller DNA fragments of 200-800 kbp, and then to fragments of less than 300 kbp in size including chromosomal ladder DNA fragments. Such serial chromosomal DNA degradations induced by glutamate were also inhibited by addition of these antioxidants, iron chelators, and oxygen radical scavengers. These findings suggest that glutamate induces GSH depletion, and consequently, apoptosis through endogenously produced active oxygen species in C6 glioma cells and that the apoptosis is accompanied by 1-2 Mbp giant DNA fragmentation prior to the internucleosomal DNA fragmentation.
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PMID:Active oxygen-mediated chromosomal 1-2 Mbp giant DNA fragmentation into internucleosomal DNA fragmentation in apoptosis of glioma cells induced by glutamate. 943 54

The relation between the intracellular glutathione (GSH) concentration and hydrogen-peroxide(H2O2)-induced cytotoxicity was investigated. The intracellular GSH concentration in human glioblastoma (T98G, U87MG) and glioma (KG1C) cell lines was one or two orders of magnitude higher than that in a human myelogenous leukemic cell line (HL-60), which showed higher sensitivity to H2O2. Pretreatment of these cell lines with L-buthionine-[S,R]-sulfoximine, which significantly reduced the intracellular GSH concentration, increased their sensitivity against H2O2, whereas pretreatment with N-acetyl-L-cysteine, which did not significantly change the intracellular GSH concentration, only marginally protected the cells from the cytotoxic effect of H2O2. The results suggest that drug sensitivity of tumor cells can be modified by glutathione-modulating compounds.
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PMID:Effect of glutathione-modulating compounds on hydrogen-peroxide-induced cytotoxicity in human glioblastoma and glioma cell lines. 962 Feb 20

Glutathione (GSH) depletion caused by l-buthionine-(S,R)-sulfoximine (BSO) induced apoptosis that was recognized by terminal deoxynucleotidyl transferase-mediated dUTP-biotin nick endo-labeling (TUNEL), nuclear DNA staining with fluorescence dye, and internucleosomal DNA fragmentation in C6 rat glioma cells. The BSO-induced cell death was associated with caspase-3 activation. Lipid peroxidation and protein kinase C (PK-C) activation were observed during the apoptosis of C6 cells, and these events were inhibited by antioxidants and iron chelators without affecting BSO-induced GSH depletion. Furthermore, approximately 2 Mbp giant DNA fragments were observed in the BSO-treated cells. The giant DNA fragmentation were followed by approximately 30-700 kbp and then less than 100 kbp, including internucleosomal DNA fragmentations. Such serial DNA degradation was prevented by the antioxidants, the iron chelators, and the PK-C inhibitors. These results suggest that during apoptosis induced by GSH-depletion caused by BSO, reactive oxygen species endogenously produced cause lipid peroxidation and that the lipid peroxidation induced PK-C activation, processes which are thought to be involved in the giant DNA, high-molecular-weight DNA, and the internucleosomal DNA fragmentations.
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PMID:Glutathione depletion induces giant DNA and high-molecular-weight DNA fragmentation associated with apoptosis through lipid peroxidation and protein kinase C activation in C6 glioma cells. 1004 97

Aluminum, a trivalent cation unable to undergo redox reactions, has been linked to many diseases such as dialysis dementia and microcytic anemia without iron deficiency. It has also been implicated in Alzheimer's disease although this is controversial. Because cell death due to oxidative injury is suspected to be a contributory factor in many neurological diseases and aluminum neurotoxicity, glioma (C-6) and neuroblastoma (NBP2) cells were utilized to assess early changes in oxidative parameters consequent to a 48-h exposure to aluminum sulfate. A 500-microM concentration of this salt produced a significant increase in reactive oxygen species (ROS) production and a significant decrease in glutathione (GSH) content in glioma cells. However, the same concentration of the aluminum salt did not lead to any significant changes in the neuroblastoma cells. Mitochondrial respiratory activity in glioma cells was also found to be significantly higher in the aluminum treated cells. As judged by morin-metal complex formation, aluminum can enter glioma cells much more readily than neuroblastoma cells. Thus, it is possible that the cerebral target following an acute exposure to aluminum may be glial rather than neuronal.
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PMID:Aluminum-induced oxidative events in cell lines: glioma are more responsive than neuroblastoma. 1038 Nov 87

Malignant gliomas are often treated with cisplatin (cis-diamminedichloroplatinum(II), CDDP) and radiation but results remain unsatisfactory. The development of resistance might explain the poor prognosis. The aim of this study was to investigate whether two human malignant glioma cell lines, 86HG39 and A172, develop resistance to CDDP and/or radiation after CDDP pretreatment. The cells are incubated three times with 10(-6) M CDDP for 24 h, allowed to recover from the treatment and then tested for sensitivity to CDDP and radiation (9 Gy, 60Co) using a colorimetric assay (MTT). A172 pretreated and wild-type cells showed no difference in sensitivity to CDDP, whilst 86HG39 cells became more sensitive following pretreatment. This indicates that no resistant phenotype towards CDDP developed in any of the cell lines. In contrast, the CDDP-pretreated cells, after radiation, had significantly higher growth rates compared with the wild-type cells in both cell lines (A172: 4.4 +/- 0.5 versus 2.5 +/- 0.3, respectively, 192 h after radiation; 86HG39: 6.2 +/- 0.7 versus 2.3 +/- 0.3, respectively, 216 h after radiation; P < 0.05) indicating resistance against radiation. The level of glutathione (GSH), which is known to mediate resistance against radiation, was 157.2 +/- 61.3 ng/mg protein in A172 cells and 93.2 +/- 16.9 ng/mg protein in 86HG39 cells, and there was no significant difference between levels in wild-type and pretreated cells (A172: 130.1 +/- 34; 86HG39: 81.6 +/- 10.4). These data show that CDDP pretreatment can induce resistance against radiation in vitro independently of CDDP cross-resistance mediated by a mechanism different from GSH.
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PMID:Cisplatin (CDDP)-induced radiation resistance is not associated with CDDP resistance in 86HG39 and A172 malignant glioma cells. 1053 62

The relation between the effect of glutathione(GSH)-modulating compounds and platinum compounds (Cisplatin, Nedaplatin)-induced cytotoxicity was investigated. Pretreatment of human glioblastoma (T98G, U87MG) and glioma (KG1C) cell lines with L-buthionine-[S,R]-sulfoximine, which decrease the intracellular GSH concentration, remarkably increased their sensitivity against platinum compounds, whereas pretreatment with N-acetyl-L-cysteine, which increase the intracellular GSH concentration, only marginally protected the cells from the cytotoxic effect of platinum compounds. The results suggest that platinum compounds-induced cytotoxicity can be modified by GSH-modulating compounds in glioblastoma and glioma cell lines.
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PMID:Effect of glutathione-modulating compounds on platinum compounds-induced cytotoxicity in human glioma cell lines. 1069 65

Exposure to potentially neurotoxic levels of lead (Pb) occurs in about 9% of American children under 6 years of age. Astroglia in the brain serve as a Pb depot, sequestering Pb and preventing its contact with the more sensitive neurons. Astroglia have the capacity to adapt to Pb exposure, and as such are able to tolerate relatively high intracellular Pb accumulation. This tolerance mechanism has yet to be defined in biochemical terms. In the present study, we present evidence that glucose-regulated protein (GRP78), a molecular chaperone in the ER, participates directly or indirectly in the tolerance mechanism. Exposure of cultured C6 rat glioma cells, an astroglia-like cell line, to 1 microM Pb acetate for 1 week raised the intracellular levels of two proteins, one of which was identified by sequence analysis as GRP78. GRP78 accumulation started within 1 day and progressed with time of exposure. Studies in vitro showed that GRP78 bound tightly to affinity columns with Pb(2+) as the affinity ligand and bound weakly when either Zn(2+) or Ni(2+) replaced the Pb(2+). The reduced form of GSH and BSA did not compete with GRP78 to chelate Pb(2+). However, the heavy metal binding domain (HMB) of Menkes protein competed with GRP78 for chelating Pb(2+). The data provide evidence that GRP78 may be a component of the Pb tolerance mechanism through its direct interaction with Pb(2+). Its increased synthesis could be part of the adaptive response to Pb exposure.
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PMID:Lead targets GRP78, a molecular chaperone, in C6 rat glioma cells. 1070 65

Congeners of vitamin K have been found to inhibit growth in various rodent and human tumor cells, but the mechanisms of the inhibitory action are still not well understood. To investigate the modes of actions of vitamin K, we used several vitamin K analogs and examined their cytotoxic effect for human glioma cell lines RBR17T and U251. The analogs included vitamin K1 (VK1), vitamin K2 (VK2), vitamin K3 (VK3), and geranylgeraniol (GGO) which form an unsaturated side chain of VK2. Cell viability was estimated by MTT assay. DNA fragmentation was demonstrated by gel electrophoresis and flow cytometry. In order to study the mechanism of apoptosis, we measured the changes of intracellular reactive oxygen intermediates (ROI) and Fas/APO-1 expression by flow cytometry. The results showed: (1) VK2, VK3, and GGO inhibited cell growth; (2) VK3 had a more potent cytotoxic effect than VK2, and VK3 enhanced the cytotoxic effect of antitumor agents (ACNU and IFN-beta) in RBR17T cells; (3) VK2, VK3, and GGO induce apoptosis: (4) VK3 increased the expression of Fas/APO-1 although VK2 and GGO did not increase its expression in glioma cells; (5) VK3 increased the production of intracellular ROI. Catalase and reduced glutathione (GSH) inhibited production of intracellular ROI and antagonized inhibition of cell-growth induced by VK3, but failed to antagonize that of VK2 and GGO. We hypothesize that VK3 induces apoptosis by promoting the generation of intracellular ROI and Fas/APO-1 expression. On the other hand, VK2 and GGO induce apoptosis but most likely by some other unknown pathway.
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PMID:Cytotoxic effect through fas/APO-1 expression due to vitamin K in human glioma cells. 1093 97


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