Project description:The lateral ventricle subventricular zone (SVZ) is a frequent and consequential site of pediatric and adult glioma spread, but the cellular and molecular mechanisms mediating this are poorly understood. We demonstrate that neural precursor cell (NPC):glioma cell communication underpins this propensity of glioma to colonize the SVZ through secretion of chemoattractant signals toward which glioma cells home. Biochemical, proteomic, and functional analyses of SVZ NPC-secreted factors revealed the neurite outgrowth-promoting factor pleiotrophin, along with required binding partners SPARC/SPARCL1 and HSP90B, as key mediators of this chemoattractant effect. Pleiotrophin expression is strongly enriched in the SVZ, and pleiotrophin knockdown starkly reduced glioma invasion of the SVZ in the murine brain. Pleiotrophin, in complex with the binding partners and signaling through the receptor PTPRZ1, activated glioma Rho/ROCK signaling, and ROCK inhibition decreased invasion toward SVZ NPC-secreted factors. These findings demonstrate a pathogenic role for NPC:glioma interactions and potential therapeutic targets to limit glioma invasion.
Project description:The lateral ventricle subventricular zone (SVZ) is a frequent site of high-grade glioma (HGG) spread and tumor invasion of the SVZ is a predictor of a worse clinical prognosis. A range of HGG types invade the stem cell niche of the SVZ, including both adult glioblastoma and pediatric high-grade gliomas such as diffuse intrinsic pontine glioma (DIPG). The cellular and molecular mechanisms mediating this frequent invasion of the SVZ are poorly understood. Here we demonstrate that neural precursor cell (NPC):glioma cell communication underpins the propensity of glioma to colonize the SVZ. SVZ NPCs secrete chemoattractant signals toward which glioma cells home. Biochemical and proteomic analyses of factors secreted by SVZ NPCs revealed a discrete list of candidate proteins. Necessity and sufficiency testing implicated the neurite outgrowth-promoting factor pleiotrophin, along with three required binding partners (secreted protein acidic and rich in cysteine (SPARC), SPARC-like protein 1, and heat shock protein 90B), as key mediators of this chemoattractant effect. Pleiotrophin protein expression is strongly enriched in the SVZ, and knockdown of pleiotrophin expression starkly reduced glioma invasion of the SVZ in the adult murine brain. Pleiotrophin, in complex with the three binding partners, activated the Rho/ROCK pathway in DIPG cells, and inhibition of ROCK resulted in decreased DIPG invasion toward SVZ neural precursor cell-secreted factors. These findings demonstrate a pathogenic role for neural precursor cell – glioma interactions and potential therapeutic targets to limit glioma invasion.
Project description:MCMV has been reported to infect neural stem cells in the subventricular zone. These same cells have been shown to give rise to gliomas. We wanted to test expression levels of RNA in this cell population after MCMV infection in a mouse model of glioma.
Project description:This SuperSeries is composed of the following subset Series: GSE22473: Murine postnatal subventricular zone (SVZ) neural stem cells (NSCs): Wild-type (WT) vs. Dnmt3a-null (KO) GSE22474: Genome-wide location analysis of Dnmt3a-mediated epigenetic regulation in murine postnatal subventricular zone (SVZ) neural stem cells (NSCs) [Agilent] GSE22475: Genome-wide location analysis of Dnmt3a-mediated epigenetic regulation in murine postnatal subventricular zone (SVZ) neural stem cells (NSCs) [NimbleGen] Refer to individual Series
Project description:Neural stem cells from different brain regions show differencies in gene expression patterns and physiological functions. We used microarrays to find differential gene expression between the neuralstem cells from the subventricular zone of lateral ventricle and the subventricular zone of third ventricle. Cultured neural stem cells from embryonic day 17.5 mouse embryos were selected for RNA extraction and hybridization on Affymetrix microarrays. We sought to obtain embryonic neural stem cell cultures from three indipendent females.
Project description:Comparison of gene expression of Ink4a/Arf-/- vs Bmi1-/-;Ink4a/Arf-/- subventricular zone (SVZ) derived mouse neural stem cells (NSC) on Laminin (LM) and Fibronectin (FN) substrates.
Project description:We identified the Igfbpl1 gene by RNAseq of the neural precursor cells (NPCs) of the mice subventricular zone (SVZ), as an important gene released by SVZ-NPCs that play an important role in control of the striatal homeostasis and in particular involved in the cognitive processes and decision-making.
Project description:Neural stem cells from different brain regions show differencies in gene expression patterns and physiological functions. We used microarrays to find differential gene expression between the neuralstem cells from the subventricular zone of lateral ventricle and the subventricular zone of third ventricle.
Project description:Long noncoding RNAs (lncRNAs) have been described in cell lines and various whole tissues, but lncRNA analysis of development in vivo is limited. Here, we comprehensively analyze lncRNA expression for the adult mouse subventricular zone neural stem cell lineage. We utilize complementary genome-wide techniques including RNA-seq, RNA CaptureSeq, and ChIP-seq to associate specific lncRNAs with neural cell types, developmental processes, and human disease states. By integrating data from chromatin state maps, custom microarrays, and FACS purification of the subventricular zone lineage, we stringently identify lncRNAs with potential roles in adult neurogenesis. shRNA-mediated knockdown of two such lncRNAs, Six3os and Dlx1as, indicate roles for lncRNAs in the glial-neuronal lineage specification of multipotent adult stem cells. Our data and workflow thus provide a uniquely coherent in vivo lncRNA analysis and form the foundation of a user-friendly online resource for the study of lncRNAs in development and disease. CHIP-seq was performed on SVZ-derived neurospheres to determine the chromatin state of lncRNA promoters in adult neural stem cells
