UMLS:C0017636 - FACTA Search

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

Using a suppressive subtractive hybridization system, we identified CSIG (cellular senescence-inhibited gene protein; RSL1D1) that was abundant in young human diploid fibroblast cells but declined upon replicative senescence. Overexpression or knockdown of CSIG did not influence p21(Cip1) and p16(INK4a) expressions. Instead, CSIG negatively regulated PTEN and p27(Kip1) expressions, in turn promoting cell proliferation. In PTEN-silenced HEK 293 cells and PTEN-deficient human glioblastoma U87MG cells, the effect of CSIG on p27(Kip1) expression and cell division was abolished, suggesting that PTEN was required for the role of CSIG on p27(Kip1) regulation and cell cycle progression. Investigation into the underlying mechanism revealed that the regulation of PTEN by CSIG was achieved through a translational suppression mechanism. Further study showed that CSIG interacted with PTEN mRNA in the 5' untranslated region (UTR) and that knockdown of CSIG led to increased luciferase activity of a PTEN 5' UTR-luciferase reporter. Moreover, overexpression of CSIG significantly delayed the progression of replicative senescence, while knockdown of CSIG expression accelerated replicative senescence. Knockdown of PTEN diminished the effect of CSIG on cellular senescence. Our findings indicate that CSIG acts as a novel regulatory component of replicative senescence, which requires PTEN as a mediator and involves in a translational regulatory mechanism.
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PMID:CSIG inhibits PTEN translation in replicative senescence. 1867 45

We examined the microRNA profiles of Glioblastoma stem (CD133+) and non-stem (CD133-) cell populations and found up-regulation of several miRs in the CD133- cells, including miR-451, miR-486, and miR-425, some of which may be involved in regulation of brain differentiation. Transfection of GBM cells with the above miRs inhibited neurosphere formation and transfection with the mature miR-451 dispersed neurospheres, and inhibited GBM cell growth. Furthermore, transfection of miR-451 combined with Imatinib mesylate treatment had a cooperative effect in dispersal of GBM neurospheres. In addition, we identified a target site for SMAD in the promoter region of miR-451 and showed that SMAD3 and 4 activate such a promoter-luciferase construct. Transfection of SMAD in GBM cells inhibited their growth, suggesting that SMAD may drive GBM stem cells to differentiate to CD133- cells through up-regulation of miR-451 and reduces their tumorigenicity. Identification of additional miRs and target genes that regulate GBM stem cells may provide new potential drugs for therapy.
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PMID:MIR-451 and Imatinib mesylate inhibit tumor growth of Glioblastoma stem cells. 1876 29

Fibroblast growth factor 1 (FGF1) has been shown to maintain proliferation and self-renewal capacities of neural stem/progenitor cells (NSPCs) in vitro. We have previously identified FGF1B as the major transcript of FGF1 gene expressed exclusively in brain areas that are known to be abundant for NSPCs in vivo. The 540-bp (-540 to +31) sequence upstream of the 1B transcription start site (F1B) is sufficient to drive the expression of a heterologous luciferase reporter in cultured cells. In this study, we report a direct genetic and functional approach to isolate F1B(+) NSPCs using green fluorescent protein (GFP) reporter gene under the control of human F1B promoter. The F1B-GFP reporter could facilitate the isolation of NSPCs with self-renewal and multipotent capacities from human glioblastoma tissues, developing or adult mouse brains by fluorescence-activated cell sorting. Future work elucidating the mechanisms that control FGF1B expression will help to identify new NSPC-related genes.
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PMID:Brain-specific 1B promoter of FGF1 gene facilitates the isolation of neural stem/progenitor cells with self-renewal and multipotent capacities. 1885 95

Recent published reports on clinical trials of CPT-11 indicate the effectiveness of this compound, a prodrug of SN-38, against malignant glioma in combination with anti-vascular endothelial growth factor antibody. Here, we determined if NK012, and SN-38 incorporating micelle, can be an appropriate formulation for glioblastoma treatment compared with CPT-11. In vitro cytotoxicity was evaluated against several glioma lines with NK012, CPT-11, SN-38, ACNU, CDDP and etoposide. For the in vivo test, a human glioma line (U87MG) transfected with the luciferase gene was inoculated into nude mice brain for pharmacokinetic analysis by fluorescence microscopy and high-performance liquid chromatography after intravenous injection of NK012 and CPT-11. In vivo antitumor activity of NK012 and CPT-11 was evaluated by bioluminescence image and Kaplan-Meier analyses. The growth-inhibitory effects of NK012 were 34- to 444-fold more potent than those of CPT-11. Markedly enhanced and prolonged distribution of free SN-38 in the xenografts was observed after NK012 injection compared with CPT-11. NK012 showed significantly potent antitumor activity against an orthotopic glioblastoma multiforme xenograft and significantly longer survival rate than CPT-11 (p = 0.0014). This implies that NK012 can pass through the blood brain tumor barrier effectively. NK012, which combines enhanced distribution with prolonged sustained release, may be ideal for glioma treatment. Currently, a phase I study of NK012 is almost complete in Japan and the US. The present translational study warrants the clinical phase II study of NK012 in patients with malignant glioma.
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PMID:Potent antitumor effect of SN-38-incorporating polymeric micelle, NK012, against malignant glioma. 1918 1

IL-20, an IL-10 family member, is involved in various inflammatory diseases, such as psoriasis, rheumatoid arthritis, and atherosclerosis. We investigated whether hypoxia in vitro and an in vivo model of ischemic stroke would up-regulate IL-20 expression. In vitro, IL-20 expression increased in hypoxic HaCaT, HEK293 cells, chondrocytes, monocytes, and glioblastoma cells. Inhibition of hypoxia-inducible factor 1alpha inhibited CoCl(2)-induced IL-20 expression. We identified two putative hypoxia response elements in the human il20 gene promoter. Promoter activity assays showed that CoCl(2) mimicked hypoxia-activated luciferase reporter gene expression. In vivo, experimental ischemic stroke up-regulated IL-20 in the sera and brain tissue of rats. IL-20 stained positively in glia-like cells in peri-infarcted lesions, but not in contralateral tissue. Administration of IL-20 mAb ameliorated ischemia-induced brain infarction of rats after experimental ischemic stroke. In vitro, RT-PCR analysis showed that glioblastoma cells, GBM8901, expressed IL-20 and its receptor subunits IL-20R1, IL-20R2, and IL-22R1. IL-20 induced cell proliferation in GBM8901 cells by activating the JAK2/STAT3 and ERK1/2 pathways. IL-20 also induced production of IL-1beta, IL-8, and MCP-1 in GBM8901 cells. We conclude that IL-20 was responsive to hypoxia in vitro and in the ischemic stroke model and that up-regulation of IL-20 in the ischemic brain may contribute to brain injury.
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PMID:IL-20 is regulated by hypoxia-inducible factor and up-regulated after experimental ischemic stroke. 1934 80

A glioblastoma multiforme xenograft was established in athymic nude mice via inoculation of glioblastoma cells that stably express luciferase (U87MG-LucNeo), and was monitored weekly using bioluminescence imaging (BLI). In the control groups, a steep rise in the signal was associated with the death of mice. As an adjuvant therapy, cetuximab (0.5 mg, two times) was intraperitoneally administered 4 weeks after nitrosourea treatment. For a salvage therapy, cetuximab (0.5 mg, two times) was intraperitoneally administered when recovery of the bioluminescence signal was detected after nitrosourea monotherapy. The antitumor effects of cetuximab adjuvant therapy were superior to those of nitrosourea monotherapy and cetuximab salvage therapy. This finding was consistent with the results from a survival comparison among nitrosourea monotherapy, adjuvant and salvage therapy with cetuximab. These results suggest that BLI could be used as a simple tool for predicting the efficacy of various anticancer treatments in mouse models of brain tumors. The administration of cetuximab as an adjuvant to the conventional chemotherapeutic agent is more efficient than salvage therapy.
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PMID:Assessment of cetuximab efficacy by bioluminescence monitoring of intracranial glioblastoma xenograft in mouse. 1938 43

The tumor suppressor p53 is activated by phosphorylation and/or acetylation. We constructed 14 non-phosphorylated, 11 phospho-mimetic, and 1 non-acetylated point p53 mutations and compared their transactivation ability in U-87 human glioblastoma cells by the luciferase reporter assay. Despite mutations at the phosphorylation sites, only the p53-K120R and p53-S9E mutants had marginally reduced activities. On the other hand, the Nuclear factor of activated T-cells (NFAT)-luciferase reporter was more potently activated by p53-K120R than by wild-type p53 and other mutants in glioblastoma, hepatoma and esophageal carcinoma cells. This suggests that acetylation at Lys-120 of p53 negatively regulates a signaling pathway leading to NFAT activation.
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PMID:Activation of NFAT signal by p53-K120R mutant. 1941 25

For cancer-targeting gene delivery, we applied a protein kinase C (PKC)alpha-responsive polymeric carrier to human cancers (U-87 MG [human glioblastoma-astrocytoma, epithelial-like cell line] and A549 [human lung adenocarcinoma epithelial cell line]). Two polymers, one a PKCalpha-responsive polymer (PPC[S]) containing the phosphorylation site serine, and the other a negative control polymer (PPC[A]), in which the serine was substituted with alanine, were synthesized. No cytotoxicity of the polymer was identified. When the complexes were transfected into cancer cells or tissues in which PKCalpha was hyper-activated, the luciferase expression from the PPC(S)/plasmid (pDNA) complex was higher than that from the PPC(A)/pDNA complex. These results show that the phosphorylation of complex by PKCalpha in cancer cells leads to high gene expression and that our system can be used as a human cancer cell-targeting gene delivery system.
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PMID:Protein kinase Calpha-responsive polymeric carrier: its application for gene delivery into human cancers. 1945 55

The INSM1 gene encodes a developmentally regulated zinc finger transcription factor. INSM1 expression is normally absent in adult tissues, but is reactivated in neuroendocrine tumor cells. In the present study, we analyzed the therapeutic potential of an adenoviral INSM1 promoter-driven herpes simplex virus thymidine kinase (HSV-tk) construct in primitive neuroectodermal tumors (PNETs). We constructed an adenoviral INSM1 promoter-driven HSV-tk gene for therapy in PNETs. The PNET-specific adeno-INSM1 promoter HSV-tk construct was tested both in vitro and in vivo in a nude mouse tumor model. Northern blot analysis and transient transfection of an INSM1 promoter-driven luciferase reporter gene indicated that the INSM1 promoter was active in neuroblastoma (IMR-32), retinoblastoma (Y79), and medulloblastoma (D283 Med) cells, but not in glioblastoma (U-87 MG) cells. After Ad-INSM1p-HSV-tk infection, the levels of HSV-tk protein expression were consistent with INSM1 promoter activities. Furthermore, in vitro multiplicity of infection and ganciclovir (GCV) sensitivity studies indicated that the INSM1 promoter could mediate specific expression of the HSV-tk gene and selective killing of INSM1-positive PNETs. In vivo intratumoral adenoviral delivery demonstrated that the INSM1 promoter could direct HSV-tk gene expression in a nude mouse tumor model and effectively repressed tumor growth in response to GCV treatment. Taken together, our data show that the INSM1 promoter is specific and effective for targeted cancer gene therapy in PNETs.
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PMID:INSM1 promoter-driven adenoviral herpes simplex virus thymidine kinase cancer gene therapy for the treatment of primitive neuroectodermal tumors. 1960 42

Tumor hypoxia is associated with tumor promotion, malignant progression, and resistance to cancer therapy. The hypoxia-induced phenotypic changes in tumors result, at least partially, from the induction of hypoxia-responsive genes, such as chemokine receptor CXCR4. Hypoxia-inducible factor 1 (HIF-1) is a critical transcription factor involved in the transcriptional regulation of these genes. Although interferon-gamma (IFNgamma) exerts anti-tumor responses against various tumors, the effect of IFNgamma on HIF-1-dependent transcription remains to be determined. In this study, we examined the inhibitory effect of IFNgamma on hypoxia-induced CXCR4 gene expression in human glioblastoma cell lines and explored the mechanism of inhibition. Hypoxia (1% O(2)) and the iron chelator deferoxamine (DFX), a hypoxia mimetic, increased the levels of CXCR4 mRNA in A172 and T98G cells, and treatment with IFNgamma inhibited the expression of CXCR4 mRNA. Although hypoxia and DFX induced the expression of HIF-1alpha protein and its hypoxia response element (HRE) DNA-binding activity, IFNgamma failed to inhibit its expression or DNA-binding activity. The results of a luciferase reporter assay using a heterologous promoter construct containing the HRE sequence revealed that IFNgamma suppressed the hypoxia- and DFX-induced reporter activities. Lentivirus-mediated RNAi of signal transducer and activator of transcription 1 (STAT1) expression abolished the inhibitory effect of IFNgamma on hypoxia-induced reporter gene activity. Furthermore, this activity was not detected in a stable cell line expressing dominant-negative STAT1. These results indicate that IFNgamma-activated STAT1 functions as a negative regulator of HIF-1-dependent transcription in tumor cells.
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PMID:STAT1 represses hypoxia-inducible factor-1-mediated transcription. 1964 59

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