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)

The role of protein kinase C in migration of tumor cells from spheroid cultures was investigated using parental rat glioma cells and their TPA resistant counterparts. These two lines differed in their PKC content as judged by the histone phosphorylation method. Also 4 days of treatment with IRA led to PKC down-regulation. Cells having a drastically decreased PKC level migrated better than those having a normal PKC content.
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PMID:The role of protein kinase C in migration of rat glioma cells from spheroid cultures. 156 92

A genomic clone for rat tyrosine hydroxylase (TH) was isolated and a fragment containing 503 bp upstream of the transcription start site was sequenced. The BamHI/AluI fragment was inserted into a plasmid carrying the coding sequence for bacterial chloramphenicol acetyltransferase (CAT). Another construct with the 5' sequence truncated to -151 bp also was prepared. When these were introduced into several mammalian cell lines, including C6 glioma, BE(2) neuroblastoma, CV-1 or Ltk- fibroblasts, different basal levels of CAT expression were observed. In the fibroblast lines, THCAT constructs were not expressed unless the cells were treated with forskolin or TPA. However, the low basal expression was not correlated to endogenous expression as THCAT constructs expressed comparably in BE(2)C, HeLa, and C6 glioma. Treatment of any of the cell lines with forskolin, TPA, or a combination of the two agents stimulated the expression by at least two-fold in all cell lines and the maximally induced levels were at least 10-fold over promoterless controls. These data indicate that the essential promoter elements as well as those conferring responsivity to cyclic AMP reside within 151 bp of the transcription start site. However, the array of elements regulating cell-type expression lie, at least in part, beyond the 500-bp region examined. Further, a role for phosphorylation in the regulation of basal and induced transcription of TH is suggested.
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PMID:Effects of second messenger system activation on functional expression of tyrosine hydroxylase fusion gene constructs in neuronal and nonneuronal cells. 168 57

DNA methylation at HpaII (CmCGG) sites inhibits expression of a human proenkephalin-CAT fusion gene when it is transiently expressed in CV-1 cells or stably expressed in C6-glioma cells. The inhibitory effects of HpaII methylation have been mapped to a site within the human proenkephalin promoter located at position -72 relative to the start site of transcription. This region spans a cAMP and phorbol ester inducible enhancer and methylation at this position inhibits both basal transcription and transcription induced by either cAMP or TPA. The HpaII site is located within an element which binds the transcription factor AP-2. In vitro methylation at this HpaII site inhibits the binding of AP-2. These results suggest that CpG methylation inhibits proenkephalin gene expression by directly interfering with the binding of a positively acting transcription factor previously shown to be essential for maximal basal, cAMP, and TPA inducible transcription.
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PMID:CpG methylation inhibits proenkephalin gene expression and binding of the transcription factor AP-2. 169 33

To evaluate the role of protein kinase C-mediated pathways in the proliferation of malignant gliomas, this study examined the effect of a protein kinase C (PKC)-activating phorbol ester (12-O-tetradecanoyl-13-phorbol acetate or TPA) and a protein kinase C inhibitor (polymyxin B) on deoxyribonucleic acid (DNA) synthesis of malignant glioma cells in vitro. A serum-free chemically defined medium, MCDB 105, was employed for all studies. Two established human malignant glioma cell lines (T98G and U138), two rat glioma lines (9L and C6), and two low-passage human glioma lines (obtained from surgical specimens) were studied. With the exception of the C6 line, all tumors responded in a dose-dependent fashion to nanomolar concentrations of TPA with a median effective dose that varied from 0.5 ng/ml for the U138 glioma to 1 ng/ml for the T98G glioma. At optimal concentrations (5 to 10 ng/ml), TPA produced a two- to five-fold increase in the rate of DNA synthesis (p less than 0.05) as assessed by incorporation of 3H-thymidine. However, TPA had no additive effect on the mitogenic response produced by epidermal growth factor (EGF) or platelet-derived growth factor (PDGF). Inhibition of PKC using the antibiotic polymyxin B (20 micrograms/ml) abolished the TPA-induced mitogenic response in the five responsive lines tested. In two tumors (U138 and 9L), polymyxin B also eliminated EGF-, PDGF-, and serum-induced DNA synthesis as well as abolishing baseline DNA synthesis. These cells remained viable, however, as assessed by trypan blue exclusion; after removal of polymyxin B from the medium, they were able to resume DNA synthesis in response to TPA and serum. In the three other tumors (T98G and the two low-passage human glioma lines), growth factor-induced and serum-induced DNA synthesis were inhibited by approximately 25% to 85%. It is concluded that PKC-mediated pathways affect DNA synthesis in the human malignant glial tumors studied. The response of the glioma cells to TPA is similar to the responses seen in fetal astrocytes, but differs significantly from those reported for normal adult glial cultures. Because the response of the 9L glioma to TPA is similar to the responses seen in the human tumors, the 9L rat glioma model may prove useful for examining the role of PKC-mediated pathways in controlling glioma growth in vivo.
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PMID:Response of malignant glioma cell lines to activation and inhibition of protein kinase C-mediated pathways. 216 13

Protein kinase C (PKC), the major receptor for tumor-promoting phorbol esters, consists of a family of at least 12 distinct lipid-regulated enzymes. We examined the expression and regulation of PKC isoforms in C6-glioma and NG 108-15 hybrid cells. Western blot analysis indicated that both cell lines express four PKC isoforms, PKC alpha, PKC delta, PKC epsilon and PKC zeta. The expression of PKC alpha and PKC delta in C6-glioma cells was more abundant than NG 108-15 cells, however, PKC epsilon in NG 108-15 was more abundant than C6-glioma cells in which PKC epsilon was almost undetectable. Treatment of both cells with TPA for 10 min resulted in the translocation of PKC alpha, PKC delta and PKC epsilon to the membrane fraction. When the intact cells were treated with Ca(2+)-free, EGTA containing physiological saline solution, the membrane bound conventional PKC alpha (cPKC alpha) was greatly reduced and cytosolic cPKC alpha was only slightly increased. However, neither membrane bound nor cytosolic new PKC delta (nPKC delta), nPKC epsilon and atypical PKC zeta (aPKC zeta) was affected by extracellular Ca2+ depletion. In this condition, the translocation of cPKC alpha, nPKC delta and nPKC epsilon induced by TPA still occurred, however, that of cPKC alpha was reduced more than in the normal condition. After long-term treatment (17 h) with TPA, cPKC alpha, nPKC delta and nPKC epsilon were down-regulated both in the cytosol and membrane. The phenomena of cPKC alpha were confirmed by measuring the PKC activity with histone as the substrate. From in vitro endogenous phosphorylation studies, a 31 kDa substrate protein phosphorylation in C6 glioma cell membrane and 31 and 26 kDa proteins in NG 108-15 cell membrane were increased in the translocation but disappeared in the down-regulation of PKC.
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PMID:Differential expression of protein kinase C isoforms in glial and neuronal cells. Translocation and down-regulation of PKC isoforms in C6 glioma and NG 108-15 hybrid cells: effects of extracellular Ca(2+)-depletion. 749 43

Glioma C6 cells treated with 12-0-tetradecanoyl-phorbol-13-acetate, TPA (10 nM and 100 nM) manifested slow increase in intracellular calcium concentration ([Ca2+]i), dependent upon both Ca2+ release from intracellular stores and Ca2+ entry, and ranging from 50 to 500 nM in different cells. The effect of TPA was abolished by the down-regulation procedure and by protein kinase C inhibitors, such as staurosporine (100 nM), suramin (100 microM), and sphingosine (100 microM), pointing to a role of protein kinase C (PKC) in this process. On the other hand, thapsigargin (100 nM), a selective inhibitor of the endoplasmic reticulum Ca(2+)-ATPase, produced a rapid increase in [Ca2+]i (up to 800 nM). This increase consisted of a transient initial phase followed by sustained elevation in [Ca2+]i, typical of Ca2+ release from intracellular stores and of Ca2+ entry, respectively. However, when the cells were exposed to TPA (100 nM) prior to thapsigargin (100 nM), then thapsigargin produced only a transient rise in [Ca2+]i. We suggest that TPA, a PKC activator, affects thapsigargin-induced Ca2+ entry, probably by PKC-mediated changes in cytoskeleton structures.
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PMID:Changes in Ca2+ concentration in phorbol ester and thapsigargin treated glioma C6 cells. The role of protein kinase C in regulation of Ca2+ entry. 762 33

The functional induction of c-fos in the sodium butyrate-induced differentiation of F-98 glioma cells was studied. Fos protein level was increased by butyrate. In contrast, c-Jun protein was constitutively expressed and was not affected by butyrate. Gel-retardation assay indicates Fos as a component of the complex formed between the consensus oligonucleotide of the TPA (PMA, phorbol 12-myristate 13-acetate) response element (TRE) and nuclear extract prepared from butyrate-treated cells. Transfection studies showed that butyrate increased transcription from a multimeric TRE-driven reporter construct, and the effect was mimicked by transfecting cells with fos-expression plasmid. Furthermore, under conditions of c-fos over-expression, transactivation by butyrate was essentially abolished. These data suggest that Fos induction had a functional role in gene activation. Characterization of stable c-fos transfectants demonstrated that these cells displayed alterations in morphology, showed serum-dependent growth, had slower growth rates and grew to lower saturation densities than did untransfected F-98 cells or transfected cells that did not express c-fos. Immunofluorescent staining indicated that fos transfectants also had elevated glial fibrillary acidic protein ('GFAP') expression. Transfection of the c-fos promoter-chloramphenicol acetyltransferase fusion gene into F-98 cells revealed that activation of c-fos by butyrate was exerted at the promoter level, and sequences located within nucleotides -757 to -402 of the c-fos promoter were responsible for butyrate induction. Our data indicate that transcriptional activation of c-fos through its promoter by butyrate resulted in increased Fos protein expression. Transfection studies show that both c-fos and butyrate activate TRE-containing genes, and fos may be a downstream mediator of butyrate. Furthermore, expression of c-fos plays a major role in modulating the growth properties of F-98 cells.
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PMID:Analysis of c-fos expression in the butyrate-induced F-98 glioma cell differentiation. 786 28

Alterations of cell surface expression of HLA (class I, class II DR, DP and DQ) and EGF-receptor on two malignant glioma cell lines (U-343MG and U-563MG) induced with cytokines (IFN-gamma, TNF-alpha, IL-1 alpha) and differentiation promoters (all-trans retinoic acid, phorbol ester TPA) were analyzed with the aid of flow cytometry. IFN-gamma induced a 10-15fold increase of HLA class I. TNF-alpha alone induced a two- to fivefold increase of HLA class I cell surface density and increased the IFN-gamma induced upregulation of HLA class I to approximately 20-24 times the antigen density of uninduced cells. TNF-alpha was able to increase HLA class II DR and DP cell surface expression on glioma lines, but it enhanced only the IFN-gamma-induced HLA class II DR upregulation. All-trans retinoic acid and TPA regulated in the opposite way the EGF-receptor cell surface expression on U-563MG cells.
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PMID:Modulation of cell surface EGF receptor and HLA expression on glioma cell lines induced with cytokines and differentiation promoters. 789 57

The effects of Ca2+ on the translocation of conventional and new protein kinase C isozymes in intact cells were studied by using C6 glioma cells as a model system. Two conditions which monitor intracellular Ca2+ were performed: one is extracellular Ca(2+)-depletion by treating the cells with physiological saline solution (PSS) without Ca2+ but containing 0.5 mM EGTA, the other is treating the cells with 1 microM ionomycin to induce Ca(2+)-influx. In addition, the TPA and endothelin-1 induced translocations of conventional and new PKC isozymes under these two conditions were also comparatively studied. When the intact cells were treated with Ca(2+)-free, EGTA containing PSS, the membrane-bound conventional PKC alpha (cPKC alpha) was greatly reduced and cytosolic cPKC alpha was slightly increased. However, neither membrane bound nor cytosolic new PKC delta (nPKC delta) was affected by extracellular Ca(2+)-depletion. On the other hand, when the cells were treated with 1 microM ionomycin, the translocation of cPKC alpha itself was observed while nPKC delta was not affected. In extracellular Ca(2+)-depletion, the translocation of cPKC alpha induced by 100 nM TPA still occurred although the extent of translocation was smaller than that induced by TPA under normal Ca2+ conditions; however, that induced by 30 nM ET-1 was blocked. After the cells were treated with 1 microM ionomycin, the translocation of cPKC alpha induced by 30 nM TPA was further increased compared to 1 microM ionomycin or 30 nM TPA alone, while that induced by ET-1 was only slightly further increased. All these results suggested that in intact cells, the activation of cPKC alpha was operated by both the intracellular Ca2+ level and diacylglycerol and that of nPKC delta was operated by diacylglycerol alone as predicted by their properties from purified enzyme or cDNA. In addition, the translocation of cPKC alpha induced by the natural activator ET-1 seemed to be more dependent on Ca2+ than TPA in intact cells.
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PMID:Effects of Ca2+ on the activation of conventional and new PKC isozymes and on TPA and endothelin-1 induced translocations of these isozymes in intact cells. 802 77

The effect of DPDPE on intracellular free calcium concentration in neuroblastoma glioma hybrid cells (NG108-15) was studied with fura-2/AM fluorescence. The results were as follows: 1) The membrane permeable cAMP analogue Bt2cAMP, the adenylate cyclase activator forskolin and the protein kinase C activator TPA all induced an increase in intracellular free calcium concentration. 2) Verapamil suppressed the increase of [Ca2+]i induced by Bt2cAMP, forskolin and TPA. 3) DPDPE blocked the increase of [Ca2+]i induced by Bt2cAMP and forskolin, but not that induced by TPA. These results imply that DPDPE suppresses cyclic AMP-dependent protein kinase-induced but not protein kinase C-induced intracellular free calcium.
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PMID:[The influence of DPDPE on intracellular free calcium concentration induced by Bt2 cAMP and phorbol ester]. 822 99

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