| Literature DB >> 28122246 |
Yiwen Jiang1, Voichita Dana Marinescu1, Yuan Xie1, Malin Jarvius2, Naga Prathyusha Maturi1, Caroline Haglund2, Sara Olofsson1, Nanna Lindberg1, Tommie Olofsson3, Caroline Leijonmarck4, Göran Hesselager4, Irina Alafuzoff1, Mårten Fryknäs2, Rolf Larsson2, Sven Nelander5, Lene Uhrbom6.
Abstract
The identity of the glioblastoma (GBM) cell of origin and its contributions to disease progression and treatment response remain largely unknown. We have analyzed how the phenotypic state of the initially transformed cell affects mouse GBM development and essential GBM cell (GC) properties. We find that GBM induced in neural stem-cell-like glial fibrillary acidic protein (GFAP)-expressing cells in the subventricular zone of adult mice shows accelerated tumor development and produces more malignant GCs (mGC1GFAP) that are less resistant to cancer drugs, compared with those originating from more differentiated nestin- (mGC2NES) or 2,'3'-cyclic nucleotide 3'-phosphodiesterase (mGC3CNP)-expressing cells. Transcriptome analysis of mouse GCs identified a 196 mouse cell origin (MCO) gene signature that was used to partition 61 patient-derived GC lines. Human GC lines that clustered with the mGC1GFAP cells were also significantly more self-renewing, tumorigenic, and sensitive to cancer drugs compared with those that clustered with mouse GCs of more differentiated origin.Entities:
Keywords: cancer stem cell; cell of origin; central nervous system; drug response; glioblastoma; glioma; mouse model; neural stem cell; oligodendrocyte precursor cell; self-renewal
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Year: 2017 PMID: 28122246 DOI: 10.1016/j.celrep.2017.01.003
Source DB: PubMed Journal: Cell Rep Impact factor: 9.423