UMLS:C0017638 - FACTA Search

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

Sodium butyrate is well known in stimulating growth and differentiation of cancer cells. In the present study, butyrate treatment caused decreases in thymidine incorporation in the early passages (45-60) of C6 glioma cells. In addition, butyrate also caused decreases in inositol incorporation and transient ATP-stimulated Ca2+ mobilization suggesting that butyrate altered general mechanisms of Ca2+ signaling in these cells. To gain direct insight into the crosstalk between sodium butyrate and Ca2+ signaling in transcriptional regulation, we investigated the induction of the Ca2+-sensitive immediate early genes (IEGs), c-fos, nur77 and c-myc. Sodium butyrate per se enhanced the expression of c-fos mRNA, and the enhanced levels were maintained for 24 h, but over the same time period, the initially increased levels of nur77 expression tailed off, while c-myc expression was slightly reduced. Increasing intracellular Ca2+ concentration ([Ca2+]i) by thapsgargin and A23187 induced the expression of both c-fos and nur77 mRNA expression, and synergistic effects were observed when cells were incubated with sodium butyrate plus thapsgargin and A23187. However, removal of both extracellular Ca2+ by EGTA, or intracellular free Ca2+ with BAPTA did not affect the sodium butyrate-induced c-fos and nur77 mRNA. These results suggest that although sodium butyrate altered Ca2+ signaling which is an important regulatory mechanism for c-fos and nur77 expression, nevertheless the sodium butyrate-induced c-fos and nur77 expression may be not in fact mediated through Ca2+ signaling.
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PMID:Alterations in Ca2+ signaling, and c-fos and nur77 expression are associated with sodium butyrate-induced differentiation of C6 glioma cell. 1129 79

HMBA, a differentiation inducer belonging to the class of hybrid polar compounds, is known to induce terminal differentiation of a number of leukemic and solid tumour cell lines. In this report we have shown that HMBA markedly inhibits growth of C6 glioma cells at non-cytotoxic concentrations ranging from 2.5 m m to 10 m m in a dose-dependent manner. The growth inhibitory effect can be detected as early as 18--24 h. By the sixth day the growth inhibition decreases at all the concentrations tested. Treatment with HMBA results in an accumulation of C6 cells in G0/G1 phase along with a decrease in the number of cells in S phase. HMBA induces morphological differentiation of C6 cells and increases expression of glial fibriliary acidic protein (GFAP), a marker for mature astrocytes. HMBA induces c-fos and represses cycloheximide-induced c-jun and fra-1 expression. HMBA-induced growth inhibition of C6 cells is accompanied by a decrease in Cdk4 protein levels. However, HMBA fails to sustain low Cdk4 levels, which may be responsible for HMBA's failure to sustain the growth inhibitory effect.
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PMID:Growth inhibition and differentiation of C6 glioma cells on treatment with hmba. 1144 1

The effects of forskolin (FSK) and phobol 12-myristate-13-acetate (PMA) on c-fos and c-jun mRNA expressions in rat C6 glioma cells were studied. Both FSK and PMA increased the c-fos mRNA level. The C-jun mRNA level was decreased by FSK, whereas it was increased by PMA. The elevated c-fos mRNA level, induced by FSK or PMA, was significantly inhibited by dexamethasone (DEX). In contrast, DEX did not affect the FSK- and PMA-induced response of the c-jun mRNA level. Cycloheximide (CHX) caused a superinduction of the FSK- or PMA-induced c-fos mRNA level. Furthermore, CHX also potentiated the PMA-induced c-jun mRNA level. However, CHX did not affect the FSK-induced down-regulation of the c-jun mRNA level. When C6 glioma cells were incubated with PMA and FSK, the PMA-induced c-jun mRNA level was inhibited by FSK, whereas FSK did not affect the PMA-induced c-fos mRNA level. Our results suggest that the activations of PKA and PKC pathways have different roles in the regulation of the c-jun mRNA expression in rat C6 glioma cells. PKA activation can inhibit induction of the c-jun mRNA expression by PMA. In addition, DEX appears to have a selective inhibitory action against c-fos, but not c-jun, -mRNA expression that is regulated by PKA and PKC. On-going protein synthesis inhibition is required for the superinduction of the c-fos expression that is induced by PMA, or FSK and the PMA-induced c-jun mRNA level.
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PMID:Differential effects of forskolin and phobol 12-myristate-13-acetate on the c-fos and c-jun mRNA expression in rat C6 glioma cells. 1156 18

Identifying genes upregulated in lead-resistant cells should give insight into lead toxicity and cellular protective mechanisms and may also result in identification of proteins that may be useful as biomarkers. Glial cells are thought to protect neurons against heavy metals. Rat glioma C6 cells share many properties of normal glial cells. To identify and analyze genes upregulated in a lead-resistant variant, PbR11, suppression subtractive hybridization (SSH) between mRNAs of wild-type and PbR11 cells was performed. Sequencing and database searches identified three genes, thrombospondin-1, heparin sulfate 6-sulfotransferase, and neuropilin-1, which play important roles in angiogenesis and axon growth during development. Two genes, HSP90 and UBA3, are involved in the ubiquitin-proteosome system. One gene was identified as that of a rat endogenous retrovirus and another, 2C9, is a transcript expressed in fos-transformed cells. PbR11 also overexpresses c-fos. Expression of these genes and effects of short-term lead exposure (24 h, up to 600 microM) on their expression in C6 cells was examined. The rat endogenous retrovirus and 2C9 are expressed only in PbR11 cells, and show no expression, either constitutive or lead-induced, in wild-type C6 cells. HSP90 is expressed at low level constitutively in C6 cells, but can be induced in a dose-dependent manner by lead. In contrast, thrombospondin-1 is repressed in a dose-dependent manner by lead. The other genes (HS6ST, neuropilin, and UBA3) show low constitutive expression and are neither upregulated nor downregulated by exposure to lead. We suggest that neuropilin-1, heparin sulfate 6-sulfotransferase, and thrombospondin-1 may be important targets for lead-induced developmental neurotoxicity.
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PMID:Genes upregulated in lead-resistant glioma cells reveal possible targets for lead-induced developmental neurotoxicity. 1160 5

Lysophosphatidic acid (LPA) and LPA receptors are enriched in the brain. Moreover, the levels of these receptors and ligand are modulated during brain development and injury, respectively, suggesting multiple roles for LPA in the brain. In cultured astrocytes and glioma-derived cells, LPA increases intracellular calcium concentrations and causes morphological changes. LPA also induces glioma cell migration. In normal astrocytes, LPA stimulates reactive oxygen species synthesis, activation of multiple protein kinases and expression of c-fos and c-jun. It is noteworthy that LPA-induced astrocyte responses vary as a function of the specific brain region of origin of the astrocytes. This may be one factor in the finding of LPA-stimulated proliferation in some, but not all, astrocyte studies. The species and/or developmental stage also differed in many of the astrocyte proliferation analyses. Micromolar LPA is required to elicit some astrocyte responses, including the stimulation of cytokine expression and inhibition of glutamate uptake. These events could significantly impact on survival of injured neurons and micromolar LPA concentrations are likely in diverse brain pathologies. There are important aspects of astrocyte LPA responses still to be fully evaluated, including functions in development and activation, synergy between LPA and other biomediators, and astrocyte interactions with other cells.
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PMID:Multiple astrocyte responses to lysophosphatidic acids. 1206 23

Scaffolding proteins such as receptor for activated C kinase (RACK) 1 are involved in the targeting of signaling proteins and play an important role in the regulation of signal transduction cascades. Recently, we found that in cultured cells and in vivo, acute ethanol exposure induces the nuclear compartmentalization of RACK1. To elucidate a physiological role for nuclear RACK1, the Tat protein transduction system was used to transduce RACK1 and RACK1-derived fragments into C6 glioma cells. We found that nuclear RACK1 is mediating the induction of the immediate early gene c-fos expression induced by ethanol. First, transduction of full-length RACK1 (Tat-RACK1) resulted in the induction of c-fos expression and enhancement of ethanol activities. Second, we determined that the C terminus of RACK1 (Tat-RACK1DeltaN) is mediating transcription. Third, we identified a dominant negative fragment of RACK1 that inhibited the nuclear compartmentalization of endogenous RACK1 and inhibited ethanol-induction of c-fos mRNA and protein expression. Last, acute exposure to ethanol or transduction of full-length Tat-RACK1 resulted in an increase in mRNA levels of an activator protein 1 site-containing gene, PAC1 (pituitary adenylate cyclase-activating polypeptide receptor type I), suggesting that nuclear RACK1 is involved in the regulation of the expression of genes that are altered upon acute ethanol treatment. These results may therefore have important implications for the study of alcohol addiction.
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PMID:Ethanol induces gene expression via nuclear compartmentalization of receptor for activated C kinase 1. 1213 Jun 78

Cell membrane dielectric properties of five different cultivated cell lines and human peripheral blood mononuclear cells (PBMC) were determined from dielectrophoretic crossover frequency measurements on a 5 x 5 microelectronic chip array. Based on distinct dielectric property differences between individual cell types, efficient cell separations were achieved by dielectrophoresis on this 5 x 5 array, which included separation of monocytic cells (U937) or human T cell leukemia virus type 1 (HTLV-1) tax-transformed cells (Ind-2) from PBMC, as well as separation of neuroblastoma cells (SH-SY5Y) from glioma cells (HTB). The purity of dielectrophoretically separated cells can be greater than 95%. Expression profiles of IL-1, TNF-alpha, and TGF-beta genes for U937 cells mixed with PBMC before and after the separation were determined by a means of electric field-facilitated hybridization on a 10 x 10 microelectronic chip array. By using the expression levels of pure U937 cells as a control, it was shown that the gene expression profiles of the postseparation cells were significantly different from those of the preseparation cell mixtures. The increase in gene expression levels for U937 cells upon lipopolysaccharide induction could be accurately determined only in the postseparation cells, while the preseparation samples masked these changes. Furthermore, by cultivating the separated HTB and SH-SY5Y cells and measuring expression of the stress-related gene c-fos, dielectrophoretic forces were shown to have little effect on cell survival and stress. The presented approach of using microelectronic chip arrays for both cell separation and gene expression profiling provides a great potential for accurate genetic analysis of specific cell subpopulations in heterogeneous samples.
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PMID:Dielectrophoretic cell separation and gene expression profiling on microelectronic chip arrays. 1213 41

Electroencephalographic recordings in cerebral cortex of mice given a single sub-convulsive dose of domoic acid exhibited typical spike and wave discharges. Administration of the anti-epileptic drugs sodium valproate, nimodipine, or 5 alpha-pregnan 3 alpha-ol-20-one as well as pyridoxine simultaneously with or after domoic acid treatment resulted in significantly less spike and wave activity. Administration of these same drugs 45 min prior to the administration of domoic acid also significantly reduced EEG background. Mechanistically, sodium valproate and pyridoxine significantly attenuated domoic acid-induced increase in levels of glutamate, increase in levels of calcium influx, decrease in levels of gamma-aminobutyric acid and increase in levels of the protooncogenes c-fos, jun-B and jun-D. In hippocampal cells, domoic acid-induced increases in glutamate and calcium influx were significantly decreased by pyridoxal phosphate or nimodipine. Similarly in neuroblastoma-glioma hybrid cells (NG 108/15), pyridoxine attenuated domoic acid-induced increases in glutamate, influx of extracellular calcium, and enhanced induction of oncoproteins regardless of whether cells were undifferentiated, differentiated or de-differentiated. Pyridoxine has anti-seizure and neuroprotective actions mediated through mechanisms similar to those targeted by current therapeutic strategies.
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PMID:Neuroprotective actions of pyridoxine. 1268 37

Lead (Pb) and mercury (Hg) are widespread environmental contaminants that induce prominent neural toxicity. Although the brain is not the major Pb and Hg depot in the body, these metals preferentially accumulate in astroglia to exert toxic effects. In this study, we examined the effects of Pb acetate and HgCl(2) on the expression of GRP78, a molecular chaperone in the endoplasmic reticulum (ER) that may provide cytoprotection in response to cellular stresses in the C6 rat glioma cell line. We also evaluated the DNA binding activities of several redox-regulated transcription factors in metal-treated cells. Our results showed that mRNA levels of GRP78 were up-regulated by Pb and Hg at 0.1 and 1 micro M, but down-regulated at higher concentrations (10 micro M). GRP78 protein levels increased in a concentration- and time-dependent manner in Pb and/or Hg-treated cells. Pb increased protein binding to the GST- Upsilon a antioxidant/electrophile response element (ARE/EpRE) and to the NF- kappaB consensus binding sequence of the cytomegalovirus 2 (CMB2) promoter, but decreased protein binding to the Ha-ras ARE/EpRE or to the c-fos 12-O-tetradecanoyl-phorbol-13-acetate (TPA) response element (TRE). In contrast, Hg activated DNA binding by all redox-regulated transcription factors. These studies shed some light on the molecular mechanisms of Pb and Hg toxicity in C6 rat glioma cells and suggest that GRP78 and oxidative stress may participate in the neurotoxic response to these metals.
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PMID:Induction of 78 kD glucose-regulated protein (GRP78) expression and redox-regulated transcription factor activity by lead and mercury in C6 rat glioma cells. 1511 Dec 46

Malignant gliomas, and high-grade gliomas (HGG) in particular, are nonmetastasizing but locally infiltrating, hypervascularized brain tumors of poor prognosis. We found previously that a c-fos-inducible vascular endothelial growth factor D is ubiquitously up-regulated in HGG grade IV, glioblastoma multiforme, and that glioblastoma multiforme overexpress Fos-related antigen 1 (Fra-1) rather than the c-Fos. We have thus become interested in the role Fra-1 may play in malignant glioma progression/maintenance, because Fra-1 has the capacity to modulate transcription of a variety of target genes. In this work, we have analyzed the biological effects of ectopic Fra-1 expression or Fra-1 knockdown in malignant glioma cells. Ectopic Fra-1 induced prominent phenotypic changes in all three malignant glioma cell lines examined: H4, U-87 MG, and A-172 MG. These changes were reflected in cells becoming more elongated with larger number of cellular processes. Furthermore, Fra-1 transgene caused H4 cells, which do not form tumor xenografts, to regain tumorigenic capacity. The genotype of these cells changed too, because 50 of 1,056 genes examined became either up-regulated or down-regulated. Conversely, Fra-1 knockdown altered prominently the morphology, anchorage-independent growth, tumorigenic potential, and Fra-1 effector expression, such as vascular endothelial growth factor D, in HGG cells. For example, cells transfected with antisense fra-1 showed shorter cellular processes than the control cells that did not grow in agar, and their tumorigenic potential was significantly diminished. Thus, Fra-1 may likely play an important role in the maintenance/progression of malignant gliomas and potentially represents a new target for therapeutic interventions.
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PMID:Fos-related antigen 1 modulates malignant features of glioma cells. 1583 77

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