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:C0017636 (glioblastoma)
18,345 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In de novo glioblastoma multiforme, loss of the tumour suppressor protein PTEN can coincide with the expression of a naturally occurring mutant epidermal growth factor receptor known as deltaEGFR. DeltaEGFR signals constitutively via the phosphatidylinositol 3-kinase (PI3K)/protein kinase Akt and mitogen-activated protein kinase pathways. In human U87MG glioblastoma cells that lack PTEN, deltaEGFR expression enhances tumourigenicity by increasing cellular proliferation. Inhibition of PI3K signaling with the pharmacologic inhibitor wortmannin, or by the reconstitution of physiological levels of PTEN to dephosphorylate the lipid products of PI3K, negated the growth advantage imparted by deltaEGFR on U87MG cells. PTEN reconstitution suppressed the elevated PI3K signaling, without affecting mitogen-activated protein kinase signaling and caused a delay in G1 cell cycle progression that was concomitant with increased cyclin-dependent protein kinase inhibitor p21CIP1/WAF1 protein levels. Our study provides insight into the mechanism by which deltaEGFR may contribute to glioblastoma development.
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PMID:Inhibition of phosphatidylinositol 3-kinase signaling negates the growth advantage imparted by a mutant epidermal growth factor receptor on human glioblastoma cells. 1270 66

The progression of mammalian cells through G1 phase of the cell cycle is governed by the D-type cyclins (D1, D2, D3). These proteins are induced at the beginning of the G1 phase and associate with serine/threonine cyclin-dependent kinases to form holoenzymes. Overexpression of cyclin D1 in human cancers as well as in several cancer cell lines has been reported. Here, we employed mitotic selection to synchronize the C6 glioma cell cycle at the start of the G1 phase and assessed the effects of neomycin on cyclin D1 protein detection by immunocytochemical analysis. Cyclin D1 activation as well as cell proliferation were already significantly reduced after 3 h of incubation of the cells with neomycin. These findings suggested that the antiproliferative effects of neomycin in gliomas could be mediated by inhibition of the expression of cyclin D1 gene and support further consideration of therapeutic use of neomycin in a Phase I clinical study for patients with recurrent glioblastoma.
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PMID:Antiproliferative action of neomycin is associated with inhibition of cyclin D1 activation in glioma cells. 1457 83

It is well established that traditional NSAIDs, which inhibit cyclooxygenase (COX) 1 and COX-2, have the potential to reduce the risk of colorectal cancer. New generation COX inhibitors have been developed that selectively inhibit COX-2, which might cause less side effects while still retaining their therapeutic potential. As patients with brain tumors, such as glioblastoma, exhibit a very poor prognosis, we began to explore whether COX inhibitors could be useful for the treatment of this type of tumor. We found that celecoxib inhibited the proliferation of various glioblastoma cell lines in vitro much more potently than traditional NSAIDs. In addition, although several different selective COX-2 inhibitors potently reduced PGE2 levels in these cells, none of them exerted anti-proliferative effects that were comparable to celecoxib. The addition of external PGE2 to celecoxib-treated cells did not restore proliferation, indicating that growth inhibition by celecoxib was not mediated via the blockage of PGE2 production. In an effort to determine the underlying molecular processes that might mediate celecoxib's potent anti-proliferative effects, we found a loss of the activity of cyclin-dependent kinases, the essential regulators of cell proliferation, which was due to the transcriptional downregulation of cyclin A and cyclin B expression. Taken together, our results show that celecoxib exerts COX-2-independent anti-proliferative effects on glioblastoma cell growth, which are more potent than those of other selective COX-2 inhibitors or traditional NSAIDs, and which are mediated via the transcriptional inhibition of two essential components of the cell cycle machinery, cyclin A and cyclin B.
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PMID:Differential effects of selective COX-2 inhibitors on cell cycle regulation and proliferation of glioblastoma cell lines. 1472 7

Glioblastoma multiforme is the most common malignant brain tumor in adults, and it is among the most lethal of all cancers. Recent studies have shown that ligand activation of peroxisome proliferator-activated receptor (PPAR)-gamma can induce differentiation and inhibit proliferation of several cancer cells. In this study, we have investigated whether one PPARgamma ligand in particular, ciglitazone, inhibits cell viability and, additionally, whether it affects the cell cycle and apoptosis of human glioblastoma cell lines T98G, U-87 MG, A172, and U-118 MG. All glioblastoma cell lines were found to express PPARgamma protein, and following treatment with ciglitazone, localization was unchanged. Ciglitazone inhibited viability in a dose-dependent manner in all four tested glioblastoma cells after 24 h of treatment. Analysis of the cell cycle showed arrest in the G(1) phase and partial block in G(2)/M phase of the cell cycle. Cyclin D1 and cyclin B expression was decreased. Phosphorylation of Rb protein dropped as well. We found that ciglitazone was followed by increased expression of p27(Kip1) and p21(Waf1/Cip1). It also led to apoptosis induction: bax expression in T98G was elevated. Expression of the antiapoptotic protein bcl-2 was reduced in U-118 MG and U-87 MG and showed a slight decrease in A172 cells. Flow cytometry confirmed the induction of apoptosis. Moreover, PPARgamma ligand decreased telomerase activity in U-87 MG and U-118 MG cell lines. Our results demonstrate that ciglitazone inhibits the viability of human glioblastoma cell lines via induction of apoptosis; as a result, this ligand may offer potential new therapy for the treatment of central nervous system neoplasms.
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PMID:The synthetic ligand of peroxisome proliferator-activated receptor-gamma ciglitazone affects human glioblastoma cell lines. 1498 21

LRRC4 is a novel relatively specific gene, which displays significant down-regulation in primary brain tumor biopsies and has the potential to suppress brain tumor growth. In this study, we investigated the growth inhibitory effect of LRRC4 on tumorigencity in vivo and on cell proliferation in vitro by a tetracycline-inducible expression system. Results showed that LRRC4 significantly reduced the growth and malignant grade of xenografts arising from glioblastoma U251MG cells. Cell proliferation was markedly inhibited after U251MG Tet-on-LRRC4 cell induction with doxycycline. Flow cytometry and Western blot analysis demonstrated that LRRC4 mediated a delay of the cell cycle in late G1, possibly through up-regulating the expressions of p21Waf1/cip1 and p27Kip1 and down-regulating the expressions of cyclin-dependent kinase 2, retinoblastoma protein and epidermal growth factor receptors. Together, these findings provide clues to the function of LRRC4 as a negative regulator of cell growth and underscore a link between the above-mentioned cyclins, cyclin-associated molecules and tumorigenicity.
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PMID:Study of a novel brain relatively specific gene LRRC4 involved in glioma tumorigenesis suppression using the Tet-on system. 1607

Cell cycle progression requires precise expression and activation of several cyclins and cyclin-dependent kinases. Geldanamycin (GA) affects cell cycle progression in various kinds of cells. We analyzed GA-induced cell cycle regulation in glioblastoma cells. GA-induced G2 or M arrest in glioblastoma cells in a cell line-dependent manner. GA decreased the expression of Cdc2 and cyclin B1 in U87MG cells. And phosphorylated Cdc2 decreased along with Cdc2 in the GA-treated cells. This cell line showed G2 arrest after GA treatment. In contrast, GA failed to down-regulate these cell cycle regulators in U251MG cells. In U251MG cells, the cell cycle was arrested at M phase in addition to G2 by GA. Next, we analyzed the mechanism of the GA-induced regulation of Cdc2 and cyclin B1 in U87MG cells. Cdc2 and cyclin B1 were ubiquitinated by GA. MG132 abrogated the GA-induced decrease of Cdc2 and cyclin B1 indicating that these proteins were degraded by proteasomes. In conclusion, GA controls the stability of Cdc2 and cyclin B1 in glioblastomas cell species-dependently. Cdc2 and cyclin B1 might be responsible for the different responses of glioblastoma cell lines to GA.
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PMID:Geldanamycin induces G2 arrest in U87MG glioblastoma cells through downregulation of Cdc2 and cyclin B1. 1732 79

Cell proliferation, migration, and capillary network formation of endothelial cells are the fundamental steps for angiogenesis, which involves the formation of new blood vessels. The purpose of this study is to investigate the effect of a novel aminothiazole SNS-032 on these critical steps for in vitro angiogenesis using a coculture system consisting of human umbilical vein endothelial cells (HUVECs) and human glioblastoma cells (U87MG). SNS-032 is a potent selective inhibitor of cyclin-dependent kinases 2, 7, and 9, and inhibits both transcription and cell cycle. In this study, we examined the proliferation and viability of HUVECs and U87MG cells in the presence of SNS-032 and observed a dose-dependent inhibition of cellular proliferation in both cell lines. SNS-032 inhibited threedimensional capillary network formations of endothelial cells. In a coculture study, SNS-032 completely prevented U87MG cell-mediated capillary formation of HUVECs. This inhibitor also prevented the migration of HUVECs when cultured alone or cocultured with U87MG cells. In addition, SNS-032 significantly prevented the production of vascular endothelial growth factor (VEGF) in both cell lines, whereas SNS-032 was less effective in preventing capillary network formation and migration of endothelial cells when an active recombinant VEGF was added to the medium. In conclusion, SNS-032 prevents in vitro angiogenesis, and this action is attributable to blocking of VEGF.
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PMID:SNS-032 prevents tumor cell-induced angiogenesis by inhibiting vascular endothelial growth factor. 1753 42

The aim of the present study is to investigate the effect of histone deacetylase inhibitor, trichostatin A (TSA) on the cell growth, apoptosis, genomic DNA damage and the expression of telomerase and associated factors in human normal and brain cancer cells. Here, human normal un-transformed fibroblasts (MRC-5), human normal hTERT-immortalised fibroblasts (hTERT-BJ1) and human brain cancer cell lines (glioblastoma cell line, A-172 and medulloblastoma cell line, ONS-76) were treated with 0.5-3.0microM TSA for 24h. Exposure to TSA resulted in apoptosis in a dose-dependent manner in the brain cancer cells. Glioblastoma cell line (A-172) displayed higher sensitivity to TSA-induced cell killing effect and apoptosis than the medulloblastoma cell line (ONS-76). The brain cancer cell lines and hTERT-BJ1 cell line displayed significant inhibition in telomerase activity and hTERT mRNA level after 2microM TSA treatment. Elevated expressions of p53 and p21 with a decrease in cyclin-D level supported the observation on cell cycle arrest following TSA treatment. Upregulation of Bax and cytochrome c correlated with the apoptotic events in TSA-treated cells. This study suggests that telomerase and hTERT might be the primary targets of TSA which may have the potential to be used as a telomerase inhibitor in cancer therapy.
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PMID:Inhibition of telomerase activity and human telomerase reverse transcriptase gene expression by histone deacetylase inhibitor in human brain cancer cells. 1766 39

Hypoxia and hypoxia inducible factor-1alpha (HIF-1alpha) play a critical role in glioblastoma (GBM) which is characterized by highly aggressive and widespread cell invasion into adjacent normal brain tissue. The purpose of this study was to investigate the effect of the novel aminothiazole com-pound SNS-032 in glioblastoma cell invasion under hypoxic condition. SNS-032 is a potent and selective inhibitor of cyclin-dependent kinases 2, 7 and 9 and inhibits both cell cycle and transcription. We analyzed the effect of SNS-032 (0.5 microM) on HIF-1alpha expression and its major trans-regulating factors including COX-2, VEGF, MMP-2 and uPAR that are involved in cellular invasion in tumor hypoxia. Our observations demonstrate SNS-032: i) inhibited hypoxia-induced U87MG cell invasion and among all the other inhibitors tested, SNS-032 is the most effective, ii) blocked HIF-1alpha mediated transcription of COX-2, MMP-2, VEGF and uPAR expression in U87MG cells in response to hypoxia, iii) blocked HIF-1alpha expression by a proteasome independent pathway. The effects were similar to those observed with HIF-1alpha siRNA which prevented cellular invasion by blocking HIF-1alpha expression and its downstream effectors. Taken together, our data suggest that SNS-032 prevents hypoxia-mediated U87MG cell invasion by blocking the expression of HIF-1alpha and its trans-regulating factors. Our results present an opportunity in controlling highly invasive tumors such as glioblastoma using this novel class of compounds.
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PMID:SNS-032 prevents hypoxia-mediated glioblastoma cell invasion by inhibiting hypoxia inducible factor-1alpha expression. 1928 62

Alterations in various developmental pathways are common themes in cancer. The early B-cell factors (EBF) are a family of four highly conserved DNA-binding transcription factors with an atypical zinc-finger and helix-loop-helix motif. They are involved in the differentiation and maturation of several cell lineages including B-progenitor lymphoblasts, neuronal precursors, and osteoblast progenitors. During B-cell development, EBF1 is required for the expression of Pax5, an essential factor for the production of antibody-secreting cells. Accumulating evidence indicates that genomic deletion of the EBF1 gene contributes to the pathogenesis, drug resistance, and relapse of B-progenitor acute lymphoblastic leukemia (ALL). Epigenetic silencing and genomic deletion of the EBF3 locus in chromosome 10q are very frequent in glioblastoma (GBM). Strikingly, the frequency of EBF3 loss in GBM is similar to that of the loss of Pten, a key suppressor of gliomagenesis. Cancer-specific somatic mutations were detected in EBF3 in GBM and in both EBF1 and EBF3 in pancreatic ductal adenocarcinoma. These missense mutations occur in the DNA-binding domain or the conserved IPT/TIG domain, suggesting that they might disrupt the functions of these two proteins. Functional studies revealed that EBF3 represses the expression of genes required for cell proliferation [e.g., cyclins and cyclin-dependent kinases (CDK)] and survival (e.g., Mcl-1 and Daxx) but activates those involved in cell cycle arrest (e.g., p21 and p27), leading to growth suppression and apoptosis. Therefore, EBFs represent new tumor suppressors whose inactivation blocks normal development and contributes to tumorigenesis of diverse types of human cancer.
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PMID:Emerging roles of the EBF family of transcription factors in tumor suppression. 1999 7


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