Project description:The epigenetic mechanisms that enable specialized astrocytes to retain neurogenic competence throughout adult life are still poorly understood. Here we show that astrocytes that serve as neural stem cells (NSCs) in the adult mouse subventricular zone (SVZ) express the histone methyltransferase EZH2. This Polycomb repressive factor is required for neurogenesis independent of its role in SVZ NSC proliferation, as Ink4a/Arf-deficiency in Ezh2-deleted SVZ NSCs rescues cell proliferation, but neurogenesis remains defective. Olig2 is a direct target of EZH2, and repression of this bHLH transcription factor is critical for neuronal differentiation. Furthermore, Ezh2 prevents the inappropriate activation of genes that specify non-SVZ neuronal subtypes. In the human brain, SVZ cells including local astroglia also express EZH2, correlating with postnatal neurogenesis. Thus, EZH2 is an epigenetic regulator that distinguishes neurogenic SVZ astrocytes, orchestrating distinct and separable aspects of adult stem cell biology, which has important implications for regenerative medicine and oncogenesis. Examination of histone modifications (H3K27me3 and H3K4me3) in subventricular zone neural stem cells

Project description:The epigenetic mechanisms that enable specialized astrocytes to retain neurogenic competence throughout adult life are still poorly understood. Here we show that astrocytes that serve as neural stem cells (NSCs) in the adult mouse subventricular zone (SVZ) express the histone methyltransferase EZH2. This Polycomb repressive factor is required for neurogenesis independent of its role in SVZ NSC proliferation, as Ink4a/Arf-deficiency in Ezh2-deleted SVZ NSCs rescues cell proliferation, but neurogenesis remains defective. Olig2 is a direct target of EZH2, and repression of this bHLH transcription factor is critical for neuronal differentiation. Furthermore, Ezh2 prevents the inappropriate activation of genes that specify non-SVZ neuronal subtypes. In the human brain, SVZ cells including local astroglia also express EZH2, correlating with postnatal neurogenesis. Thus, EZH2 is an epigenetic regulator that distinguishes neurogenic SVZ astrocytes, orchestrating distinct and separable aspects of adult stem cell biology, which has important implications for regenerative medicine and oncogenesis.

Project description:Throughout postnatal life in mammals, neural stem cells (NSCs) are located in the subventricular zone (SVZ) of the lateral ventricles. The greatest diversity of neuronal and glial lineages they generate occurs during early postnatal life in a region-specific manner. In order to evaluate potential heterogeneity in the NSC pool, we microdissected the dorsal and lateral SVZ at different postnatal ages and isolated NSCs and their immediate progeny based on their expression of Hes5-EGFP/Prominin1 and Ascl1-EGFP, respectively. Whole genome comparative transcriptome analysis revealed transcriptional regulators as major hallmarks that sustain postnatal SVZ regionalization. Manipulation of single genes encoding for locally enriched transcription factors influenced NSC specification indicating that the fate of regionalized postnatal SVZ NSCs can be readily modified . These findings reveal functional heterogeneity of NSCs in the postnatal SVZ and provide targets to recruit region-specific lineages in regenerative contexts. Microarrays of neural stem cells, early progenitors and the tissue from subregions of the subventricular zone were compiled to screen for the full extent of heterogeneity in this region during postnatal life.

Project description:Throughout postnatal life in mammals, neural stem cells (NSCs) are located in the subventricular zone (SVZ) of the lateral ventricles. The greatest diversity of neuronal and glial lineages they generate occurs during early postnatal life in a region-specific manner. In order to evaluate potential heterogeneity in the NSC pool, we microdissected the dorsal and lateral SVZ at different postnatal ages and isolated NSCs and their immediate progeny based on their expression of Hes5-EGFP/Prominin1 and Ascl1-EGFP, respectively. Whole genome comparative transcriptome analysis revealed transcriptional regulators as major hallmarks that sustain postnatal SVZ regionalization. Manipulation of single genes encoding for locally enriched transcription factors influenced NSC specification indicating that the fate of regionalized postnatal SVZ NSCs can be readily modified . These findings reveal functional heterogeneity of NSCs in the postnatal SVZ and provide targets to recruit region-specific lineages in regenerative contexts. Microarrays of neural stem cells, early progenitors and the tissue from subregions of the subventricular zone were compiled to screen for the full extent of heterogeneity in this region during postnatal life. Spatially distinct regions of the developing forebrain subventricular zone (SVZ) aged at P4, P8 and P11 were microdissected in RNAse free/sterile conditions. Mice expressing Ascl1-EGFP in the SVZ were used to aid accurate microdissection of the dorsal and lateral wall of each of the studied time points as per our previous publications characterizing this method. As well as at the whole microdomain level, additionally, NSCs (Hes5-EGFP+/Prom1+) and early progenitors (Ascl1-EGFP+) from each microdomain were further isolated by FAC sorting methods. This was to provide a comprehensive gene expression analysis at the tissue level and at the cellular level. Generally, 1 litter was used to yield 1 'n' number of replicates. A total of 23 affymetrix analysis were performed.

Project description:Glioblastoma (GBM) clinical management is challenging due to its heterogeneous nature, invasive potential, and poor response to radio- and chemo-therapy. As a result, GBM inevitably recurs and only a minority of patients survive 5 years post-diagnosis. We were the first to show that in the majority of GBM patients, the sub-ventricular zone (SVZ) of the lateral ventricles is a reservoir of cancer stem-like cells (CSCs) that show distinct patterns of treatment resistance when compared to matched CSCs from the tumor mass and contribute to the seeding of the recurrent tumor. However, the sampling and the characterization of the SVZ in GBM patients pose several challenges, as this area is extremely small and needs to be objectively identified during tumor surgical resection.

Project description:Parkinson’s disease (PD) is one of the most common neurodegenerative disease caused by diminution of neurons in the substantia nigra (SN) which projects dopaminergic (DA) axons to the striatum and other target areas. Recently, accumulating data demonstrated the prospects of cell replacement therapy by using neural stem cell (NSCs) transplantation. However the mechanisms underlying the potential efficacy are not fully understood. To gain new insights into the mechanisms of 6-OHDA induced lesion and potential efficacy of hNSCs transplantation, Intrastriatal 6-Hydroxydopamine (6-OHDA) injected parkinsonian mice were unilaterally engrafted with undifferentiated human NSCs to striatum (ST). High-throughput quantitative proteomic approach was utilized to characterize the proteome profiles of PD related brain regions in these mice including SN, ST, olfactory bulb (OB) and subventricular zone (SVZ). The abundance of more than 5000 proteins with high confidence in each region was determined in this study which represents the most extensive proteomic study of PD mouse models to date. In addition to the disruption of the DA system, the quantitative analysis demonstrated the profound disturbance of SVZ proteome after 6-OHDA insult, in which the abundance of more than 20% proteins was significantly changed. After hNSCs engraftment, the proteome of SVZ was restored and the astrocytes in ST was greatly activated in companion with the increase in neurotrophic factors. Furthermore, bioinformatics analysis demonstrated that changes in proteome was not caused by the proliferation of hNSCs or their progeny, but rather by the reaction of endogenous cells. Overall, this study reveals that hNSCs benefits parkinsonian animals by eliciting endogenous responses in multiple brain regions, and discovers the unexpected role of SVZ cells in PD progress and treatment, providing new therapeutic targets.

Project description:Transcriptional profiling of mouse postnatal SVZ NSCs comparing WT NSCs with KO NSCs under proliferating/undifferentiated states as well as differentiating conditions. Goal was to determine Dnmt3a-dependent gene expression changes in postnatal SVZ NSCs

Project description:Quiescent neural stem cells (NSCs) in the adult ventricular-subventricular zone (V-SVZ) undergo activation and divide to generate neurons and glia. Here we show that Platelet-derived Growth Factor Receptor beta (PDGFRβ) is expressed by quiescent and early activated adult V-SVZ NSCs, and maintains their quiescence. We further showed that selective deletion of PDGFRβ in adult V-SVZ NSCs leads to activation of quiescent NSCs. We performed RNA-seq on FACS-sorted V-SVZ quiescent, early activated and late activated NSCs, as well as cortical cells from adult 2-4 month old mice.

Project description:Transcriptional profiling of mouse postnatal SVZ NSCs comparing WT NSCs with KO NSCs under proliferating/undifferentiated states as well as differentiating conditions. Goal was to determine Dnmt3a-dependent gene expression changes in postnatal SVZ NSCs Two-condition experiment with a dye-swap design, WT NSCs vs. KO NSCs. Biological replicates: 4 replicates under proliferating/undifferentiation conditions, 2 replicates under differentiating conditions.

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