SOX2 Silencing in Glioblastoma Tumor‐Initiating Cells Causes Stop of Proliferation and Loss of Tumorigenicity

SOX2 Silencing in Glioblastoma Tumor‐Initiating Cells Causes Stop of Proliferation and Loss of Tumorigenicity

Glioblastoma, the most aggressive cerebral tumor, is invariably lethal. Glioblastoma cells express several genes typical of normal neural stem cells. One of them, SOX2, is a master gene involved in sustaining self‐renewal of several stem cells, in particular neural stem cells. To investigate its rol...

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Veröffentlicht in:Stem cells (Dayton, Ohio) Ohio), 2009-01, Vol.27 (1), p.40-48
Hauptverfasser: Gangemi, Rosaria Maria Rita, Griffero, Fabrizio, Marubbi, Daniela, Perera, Marzia, Capra, Maria Cristina, Malatesta, Paolo, Ravetti, Gian Luigi, Zona, Gian Luigi, Daga, Antonio, Corte, Giorgio
Format: Artikel
Sprache:eng
Schlagworte:
Adult
Animals
Cell Lineage
Cell Proliferation
Clone Cells
Gene Silencing
Glioblastoma
Glioblastoma - genetics
Glioblastoma - pathology
Humans
Ki-67 Antigen - metabolism
Mice
Mice, SCID
MicroRNAs - metabolism
Neoplastic Stem Cells - metabolism
Neoplastic Stem Cells - pathology
Phenotype
SOX2 gene silencing
SOXB1 Transcription Factors - genetics
Tumor Stem Cell Assay
Tumorigenesis
Tumor‐initiating cells
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Zusammenfassung:Glioblastoma, the most aggressive cerebral tumor, is invariably lethal. Glioblastoma cells express several genes typical of normal neural stem cells. One of them, SOX2, is a master gene involved in sustaining self‐renewal of several stem cells, in particular neural stem cells. To investigate its role in the aberrant growth of glioblastoma, we silenced SOX2 in freshly derived glioblastoma tumor‐initiating cells (TICs). Our results indicate that SOX2 silenced glioblastoma TICs, despite the many mutations they have accumulated, stop proliferating and lose tumorigenicity in immunodeficient mice. SOX2 is then also fundamental for maintenance of the self‐renewal capacity of neural stem cells when they have acquired cancer properties. SOX2, or its immediate downstream effectors, would then be an ideal target for glioblastoma therapy. STEM CELLS 2009;27:40–48
ISSN:1066-5099
1549-4918
DOI:10.1634/stemcells.2008-0493