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Guerrero, P.A.; Tchaicha, J.H.; Chen, Z.; Morales, J.E.; McCarty, N.; Wang, Q.; Sulman, E.P.; Fuller, G.; Lang, F.F.; Rao, G.; McCarty, J.H. |
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Title |
Glioblastoma stem cells exploit the alphavbeta8 integrin-TGFbeta1 signaling axis to drive tumor initiation and progression |
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Journal Article |
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Year |
2017 |
Publication |
Oncogene |
Abbreviated Journal |
Oncogene |
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Glioblastoma (GBM) is a primary brain cancer that contains populations of stem-like cancer cells (GSCs) that home to specialized perivascular niches. GSC interactions with their niche influence self-renewal, differentiation and drug resistance, although the pathways underlying these events remain largely unknown. Here, we report that the integrin alphavbeta8 and its latent transforming growth factor beta1 (TGFbeta1) protein ligand have central roles in promoting niche co-option and GBM initiation. alphavbeta8 integrin is highly expressed in GSCs and is essential for self-renewal and lineage commitment in vitro. Fractionation of beta8high cells from freshly resected human GBM samples also reveals a requirement for this integrin in tumorigenesis in vivo. Whole-transcriptome sequencing reveals that alphavbeta8 integrin regulates tumor development, in part, by driving TGFbeta1-induced DNA replication and mitotic checkpoint progression. Collectively, these data identify the alphavbeta8 integrin-TGFbeta1 signaling axis as crucial for exploitation of the perivascular niche and identify potential therapeutic targets for inhibiting tumor growth and progression in patients with GBM.Oncogene advance online publication, 7 August 2017; doi:10.1038/onc.2017.248. |
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Department of Neurosurgery, M. D. Anderson Cancer Center, Houston, TX, USA |
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0950-9232 |
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PMID:28783169 |
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Call Number |
ref @ user @ |
Serial |
96572 |
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Author |
Magrath, J.W.; Kim, Y. |
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Title |
Salinomycin's potential to eliminate glioblastoma stem cells and treat glioblastoma multiforme (Review) |
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Journal Article |
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Year |
2017 |
Publication |
International Journal of Oncology |
Abbreviated Journal |
Int J Oncol |
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51 |
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3 |
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753-759 |
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Abstract |
Glioblastoma multiforme (GBM) is the most common and deadliest form of primary brain tumor. Despite treatment with surgery, radiotherapy, and chemotherapy with the drug temozolomide, the expected survival after diagnosis remains low. The median survival is only 14.6 months and the two-year survival is a mere 30%. One reason for this is the heterogeneity of GBM including the presence of glioblastoma cancer stem cells (GSCs). GSCs are a subset of cells with the unique ability to proliferate, differentiate, and create tumors. GSCs are resistant to chemotherapy and radiation and thought to play an important role in recurrence. In order to effectively treat GBM, a drug must be identified that can kill GSCs. The ionophore salinomycin has been shown to kill cancer stem cells and is therefore a promising future treatment for GBM. This study focuses on salinomycin's potential to treat GBM including its ability to reduce the CSC population, its toxicity to normal brain cells, its mechanism of action, and its potential for combination treatment. |
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Department of Chemical and Biological Engineering, The University of Alabama, Tuscaloosa, AL 35487-0203, USA |
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1019-6439 |
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PMID:28766685 |
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ref @ user @ |
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96573 |
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Author |
Miranda, A.; Blanco-Prieto, M.; Sousa, J.; Pais, A.; Vitorino, C. |
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Title |
Breaching barriers in glioblastoma. Part I: Molecular pathways and novel treatment approaches |
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Journal Article |
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Year |
2017 |
Publication |
International Journal of Pharmaceutics |
Abbreviated Journal |
Int J Pharm |
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531 |
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1 |
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372-388 |
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Keywords |
Glioblastoma; Molecular mechanisms; Temozolomide; Therapeutic advances; Therapeutic resistance |
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Glioblastoma multiforme (GBM) is the most common primary brain tumour, and the most aggressive in nature. The prognosis for patients with GBM remains poor, with a median survival time of only 1-2 years. The treatment failure relies on the development of resistance by tumour cells and the difficulty of ensuring that drugs effectively cross the dual blood brain barrier/blood brain tumour barrier. The advanced molecular and genetic knowledge has allowed to identify the mechanisms responsible for temozolomide resistance, which represents the standard of care in GBM, along with surgical resection and radiotherapy. Such resistance has motivated the researchers to investigate new avenues for GBM treatment intended to improve patient survival. In this review, we provide an overview of major obstacles to effective treatment of GBM, encompassing biological barriers, cancer stem cells, DNA repair mechanisms, deregulated signalling pathways and autophagy. New insights and potential therapy approaches for GBM are also discussed, emphasizing localized chemotherapy delivered directly to the brain, immunotherapy, gene therapy and nanoparticle-mediated brain drug delivery. |
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Faculty of Pharmacy, University of Coimbra, Portugal; Pharmacometrics Group of the Centre for Neurosciences and Cell Biology (CNC), University of Coimbra, Portugal. Electronic address: csvitorino@ff.uc.pt |
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0378-5173 |
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PMID:28755993 |
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ref @ user @ |
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96574 |
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Author |
Yin, J.; Oh, Y.T.; Kim, J.-Y.; Kim, S.S.; Choi, E.; Kim, T.H.; Hong, J.H.; Chang, N.; Cho, H.J.; Sa, J.K.; Kim, J.C.; Kwon, H.J.; Park, S.; Lin, W.; Nakano, I.; Gwak, H.-S.; Yoo, H.; Lee, S.-H.; Lee, J.; Kim, J.H.; Kim, S.-Y.; Nam, D.-H.; Park, M.-J.; Park, J.B. |
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Title |
Transglutaminase 2 Inhibition Reverses Mesenchymal Transdifferentiation of Glioma Stem Cells by Regulating C/EBPbeta Signaling |
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Journal Article |
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Year |
2017 |
Publication |
Cancer Research |
Abbreviated Journal |
Cancer Res |
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77 |
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18 |
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4973-4984 |
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Necrosis is a hallmark of glioblastoma (GBM) and is responsible for poor prognosis and resistance to conventional therapies. However, the molecular mechanisms underlying necrotic microenvironment-induced malignancy of GBM have not been elucidated. Here, we report that transglutaminase 2 (TGM2) is upregulated in the perinecrotic region of GBM and triggered mesenchymal (MES) transdifferentiation of glioma stem cells (GSC) by regulating master transcription factors (TF), such as C/EBPbeta, TAZ, and STAT3. TGM2 expression was induced by macrophages/microglia-derived cytokines via NF-kappaB activation and further degraded DNA damage-inducible transcript 3 (GADD153) to induce C/EBPbeta expression, resulting in expression of the MES transcriptome. Downregulation of TGM2 decreased sphere-forming ability, tumor size, and radioresistance and survival in a xenograft mouse model through a loss of the MES signature. A TGM2-specific inhibitor GK921 blocked MES transdifferentiation and showed significant therapeutic efficacy in mouse models of GSC. Moreover, TGM2 expression was significantly increased in recurrent MES patients and inversely correlated with patient prognosis. Collectively, our results indicate that TGM2 is a key molecular switch of necrosis-induced MES transdifferentiation and an important therapeutic target for MES GBM. Cancer Res; 77(18); 4973-84. (c)2017 AACR. |
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Specific Organs Cancer Branch, Research Institute and Hospital, National Cancer Center, Goyang, Korea |
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0008-5472 |
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PMID:28754668 |
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ref @ user @ |
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96575 |
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Behling, F.; Kaltenstadler, M.; Noell, S.; Schittenhelm, J.; Bender, B.; Eckert, F.; Tabatabai, G.; Tatagiba, M.; Skardelly, M. |
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The Prognostic Impact of Ventricular Opening in Glioblastoma Surgery: A Retrospective Single Center Analysis |
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Journal Article |
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Year |
2017 |
Publication |
World Neurosurgery |
Abbreviated Journal |
World Neurosurg |
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106 |
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615-624 |
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Extent of resection; Glioblastoma; Hydrocephalus; Overall survival; Prognosis; Tumor volume; Ventricle opening |
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OBJECTIVE: Ventricular opening during glioblastoma (GBM) resection is controversial. Sufficient evidence regarding its prognostic role is missing. We investigated the impact of ventricular opening on overall survival (OS), hydrocephalus development, and postoperative morbidity in patients with GBM. METHODS: Patients who underwent primary GBM resection between 2006 and 2013 were assessed retrospectively. Established predictors for overall survival (age, Karnofsky Performance Status, extent of resection, O-6-methylguanine-DNA methyltransferase promoter methylation status, isocitrate dehydrogenase mutation status) and further clinical data (postoperative status, further treatment, preoperative tumor volume, proximity to the ventricle) were included in univariate and multivariate analyses. RESULTS: Thirteen (5.7%) of 229 patients developed a hydrocephalus. Multivariate logistic regression showed that neither ventricular opening, tumor size, proximity to the ventricle, nor extent of resection were significant risk factors for hydrocephalus. Ventricular opening did not delay postoperative therapy and was not associated with neurological morbidity. Kaplan-Meier analysis demonstrated that patients who underwent ventricular opening (n = 114) exhibited a median OS of 14.3 months (12.9-16.5), whereas patients who did not undergo ventricular opening (n = 115) exhibited a median OS of 18.6 months (16.1-20.8). However, multivariate Cox regression (n = 134) did not confirm ventricular opening as an independent negative predictor of OS (risk ratio 1.09, P = 0.77). Instead, it showed that a greater preoperative tumor volume >22.8 cm3 was a negative predictor of OS (risk ratio 1.76, P = 0.02). CONCLUSIONS: Because extent of resection is a strong independent predictor of OS and ventricular opening is safe, neurosurgeons should consider ventricular opening to achieve maximal tumor resection. |
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Department of Neurosurgery, University Hospital Tuebingen, Eberhard Karls University, Tuebingen, Germany; Center for CNS Tumors, Comprehensive Cancer Center Tuebingen Stuttgart, University Hospital Tuebingen, Eberhard Karls University, Tuebingen, Germany |
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1878-8750 |
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PMID:28729143 |
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ref @ user @ |
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96576 |
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