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)

Differential activation of PKC isoforms by angiotensin II (AII) has been found in a variety of tissues in which this important octapeptide mediates its multitude of effects. To date, the PKC isoforms involved in mediating brain-specific effects are yet to be defined. In the present study, the identity of PKC isoforms coupled to AII stimulation was examined in the neuroblastoma X glioma hybrid cell line, NG108-15, by Western blot analysis. This cell line expresses both the AT1 and AT2 receptor subtypes, with the AT1 subtype predominating, and expression levels highly-upregulated when cells are in the differentiated state. Six PKC isoforms were examined in the present study, including three Ca(2+) dependent (alpha, beta, and gamma), and three Ca(2+) independent (delta, and zeta) isoforms. NG108-15 cells were found to express PKC alpha, delta, and zeta isoforms but not beta or gamma isoforms. Differential sensitivity of the PKC isoforms to AII stimulation was demonstrated, with AII causing a rapid and transient activation of the PKC alpha only in undifferentiated cells, whereas both PKC alpha and isoforms were responsive in differentiated cells. PKC activation was found to be both dose- and time-dependent. The data demonstrate the differential activation of PKC isoforms to AII stimulation in NG108-15 cells, with evidence supporting the involvement of the PKC alpha and isoforms in AII-mediated effects in the brain.
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PMID:Selective activation of protein kinase C isoforms by angiotensin II in neuroblastoma X glioma cells. 1506 66

Overexpression of the angiogenic enzyme thymidine phosphorylase (TP) in tumor cells and/or infiltrating macrophages correlates with increased microvessel density and poor prognosis in various tumor types including glioma. The present study examined how the TP gene expression is regulated by different types of interferons (IFNs) in human T98G and A172 glioblastoma cells. Both type I (alpha, beta) and type II (gamma) IFNs upregulated TP mRNA and protein expression while inhibiting cell proliferation. IFN-induced TP mRNA accumulation was not inhibited by the protein synthesis inhibitor cycloheximide, but was strongly blocked by the transcription inhibitor actinomycin D, as well as by transcription factor decoy oligodeoxynucleotides containing the putative IFN response element or the gamma-activated sequence in the TP promoter. The Janus kinase (JAK) inhibitor AG-490 blocked both IFN-induced STAT1 (signal transducers and activators of transcription 1) phosphorylation and TP expression. All IFNs increased the stability of TP mRNA as well. In addition, IFN-evoked TP enzyme activity enhanced the cytotoxicity of 5-fluorouracil (5-FU). These findings indicate that TP expression may be upregulated by IFNs via the JAK-STAT signaling pathway and both transcriptional and posttranscriptional mechanisms. Combined treatment with IFN and 5-fluorouracil may be a useful therapeutic strategy for malignant gliomas.
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PMID:Interferons upregulate thymidine phosphorylase expression via JAK-STAT-dependent transcriptional activation and mRNA stabilization in human glioblastoma cells. 1593 43

Laminins are the major constituents of blood vessel basement membranes (BMs). Each laminin is a trimer consisting of three assembled polypeptide chains, alpha, beta and gamma. More than 15 laminin isoforms are known to date and the expression of specific isoforms may change in certain pathological conditions. Here we show that during progression of glial tumors laminin-9 (alpha4beta2gamma1) is switched to laminin-8 (alpha4beta1gamma1), which is dramatically increased in glial brain tumors. Laminin-8 overproduction by glial tumor cells facilitates spread of glioma. Brain tumors with laminin-8 overexpression recur faster after standard treatment and patients have shorter survival time. Laminin-8 may be thus used as a predictor of tumor recurrence, patient survival and as a potential molecular target for glioma therapy.
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PMID:Changes in laminin isoforms associated with brain tumor invasion and angiogenesis. 1614 15

Peroxisome proliferator activated receptors (PPARs, alpha, beta/delta, gamma) control lipid homeostasis and differentiation in various tissues and tumor cells. PPARbeta and PPARgamma increase oligodendrocyte maturation in glial mixed populations and spinal cord oligodendrocytes, respectively, and PPARbeta is known to modulate the activity of other PPARs. To assess a possible interaction between PPARs in glial cell differentiation we used the undifferentiated C6 glioma cell line as model. These cells express all three PPARs, but only PPARgamma shows transcriptional activity in agonist-based reporter gene assay. Agonist-activated PPARgamma up-regulates oligodendrocyte markers, down-regulates an astrocyte marker, and increases alkyl-dihydroxyacetone phosphate synthase, enzyme involved in the synthesis of myelin-rich plasmalogens. Similar effects are induced in PPARgamma overexpressing cells, which in addition show PPARbeta up-regulation. PPARbeta or PPARalpha agonists show no effect. Nevertheless, PPARbeta overexpression up-regulates PPARgamma and commits C6 cells to oligodendrocytes; effect that is abrogated by a PPARgamma antagonist or PPARgamma interference RNA. Moreover, PPARbeta overexpression also induces PPARalpha and its target genes, including acyl-CoA oxidase, enzyme involved in very long chain fatty acid recycling, and in the synthesis of myelin components such as docosahexaenoic acid. These results indicate for the first time, that PPARs concertedly cooperate in C6 glioma cell differentiation to oligodendrocytes. Further, they suggest that active PPARbeta might be essential for increasing oligodendrocyte distinctive markers and enzymes required for myelin synthesis in C6 glioma cells through up-regulation of PPARgamma and PPARalpha.
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PMID:A PPARs cross-talk concertedly commits C6 glioma cells to oligodendrocytes and induces enzymes involved in myelin synthesis. 1854 50

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