Project description:To identify genes responsible for stem and progenitor cells maintenance, we sought here to find genes underlying premature neural aging, and whose deregulated expression could be rescued by running. Through RNA sequencing we analyzed the transcriptomic profiles of the dentate gyrus isolated from Btg1 wild-type or Btg1 knockout adult (two-month-old) mice submitted to physical exercise or sedentary. In Btg1 knockout mice, 545 genes were deregulated, relative to wild-type, while 2081 genes were deregulated by running. We identified 42 genes whose expression was not only down-regulated in the dentate gyrus of Btg1 knockout, but was also counter-regulated to control levels by running in Btg1 knockout mice, vs. sedentary.

Project description:We sought to find molecular signatures of the SGZ cell types, and to characterize the molecular pathways and transcription factor cascades that define the neurogenic niche. We used laser capture microdissection and DNA microarrays to profile gene expression in the inner (SGZ) and outer portions of the dentate gyrus (DG). Since the vast majority of the cells in the DG are mature granule cells, we compared the expression of the inner and outer portions to reveal molecular markers for the less numerous populations of the SGZ. This data set is part of a larger study assessing conserved molecular signatures of neurogenesis in the hippocampal subgranular zone of rodents and primates. Using a combination of selective SGZ transcriptional profiling with laser microdissection and DNA microarrays as well as in situ hybridization (ISH), we developed an extensive molecular characterization of the mouse SGZ, identifying 367 genes enriched in the SGZ compared to mature granule neurons. These genes displayed a wide range of cellular expression patterns reflecting the cellular milieu of the SGZ, including progenitor and dividing cells, immature granule cells, astrocytes, oligodendrocytes, and GABAergic interneurons. We next used a comparable microarray data set in rhesus monkey that profiled the SGZ across postnatal development to identify genes related to developmentally regulated granule cell neurogenesis. The rhesus monkey SGZ showed highly significant similarity to mouse, whereas network analysis of these data identified SGZ-enriched gene sets with different temporal profiles reflecting differential time-courses for maturation of glia and granule neurons. One neurogenesis-related gene network showed a steady decrease in expression across postnatal rhesus development from birth to adulthood. This temporal pattern is highly correlated with the number of proliferating cells in the dentate gyrus, and the neurogenic transcription factors Sox4 and Sox11 are central hub genes for this gene network. A number of the genes in this network showed a similar postnatal downregulation in mouse, suggesting a general conservation of molecular mechanisms underlying developmental and adult neurogenesis in rodents and primates. Primate data available at: http://www.blueprintnhpatlas.org/ Brains from 10- to 11-week-old C57BL/6 male mice housed in three conditions (no running, 4 days of running, 30 days of running) were sectioned and the dentate gyrus was isolated. For each brain, the inner granule cell layer (containing the subgranular zone) and outer GCL were separated using laser capture microdissection, and RNA from each region was collected and processed as described in the protocols.

Project description:We report the genome-wide gene expression in adult born hippocampal neurons (at three different stages) in dentate gyrus of volentary running mice

Project description:Analysis of LCM samples isolated from the inner (subgranular zone-side, neurogenic site) and outer (molecular zone-side) granule cell layer of either young adult or senile dentate gyrus. Results provide insight into the molecular signatures of young and old granule cells.

Project description:Sonic hedgehog (Shh) signals via Gli transcription factors to promote maintenance and proliferation of neural stem cells in the adult mouse forebrain. We have analyzed the gene expression pattern in neurogenic Shh-responding astroglia (= neural stem cells ) in the subventicular zone of the lateral ventricle and dentate gyrus of the hippocampus in comparison to the non-neurogenic Shh-responding glia (=Bergman glia) in the cerebellum to identify the genes specifically involved in neurogenic function downstream of Shh signaling. In this dataset, we include the expression data obtained from FACS-sorted Gli1+ GFAP+ cells from microdissected SVZ, hippocampus and cerebellum. GFAP expression is based on hGFAP-GFP reporter line and Gli1 expression is lineage marked using Gli1-CreER;ROSA26-tdTomato mice.

Project description:Sonic hedgehog (Shh) signals via Gli transcription factors to promote maintenance and proliferation of neural stem cells in the adult mouse forebrain. We have analyzed the gene expression pattern in neurogenic Shh-responding astroglia (= neural stem cells ) in the subventicular zone of the lateral ventricle and dentate gyrus of the hippocampus in comparison to the non-neurogenic Shh-responding glia (=Bergman glia) in the cerebellum to identify the genes specifically involved in neurogenic function downstream of Shh signaling. In this dataset, we include the expression data obtained from FACS-sorted Gli1+ GFAP+ cells from microdissected SVZ, hippocampus and cerebellum. GFAP expression is based on hGFAP-GFP reporter line and Gli1 expression is lineage marked using Gli1-CreER;ROSA26-tdTomato mice. 15 Total samples were analyzed. We compared expression levels of SVZ vs. Cerebellum, Hippocampus vs. Cerebelllum to identify genes which had more than 4 fold change in expression levels with p < 0.01. From this narrowed list, we compared between SVZ and Hippocampus to identify the common genes up and down regulated. In addition, we also identified commonly expressed genes in hippocampus and SVZ at high level.

Project description:We previously found that mice with heterozygous knockout of the alpha-isoform of calcium/calmodulin-dependent protein kinase II (alpha-CaMKII HKO mice) show various dysregulated behaviors, including cyclic variations in locomotor activity (LA), suggesting that alpha-CaMKII HKO mice may serve as an animal model showing infradian oscillation of mood. We performed gene expression microarray analysis of dentate gyrus from alpha-CaMKII HKO mice. Mice were selected for the sampling such that their LA levels varied among the mice. Dentate gyrus RNA isolated from alpha-CaMKII HKO mice.

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. RNA-seq (both paired end and single) from the adult neurogenic niches- subventricular zone (SVZ), olfactory bulb (OB), dentate gyrus (DG) and control non-neurogenic tissue, striatum (STR). Reads were used to assemble a lncRNA catalogue and determine expression values for both protein-coding and noncoding genes

Project description:The gene expression patterns in the dentate gyrus of forebrain-specific calcineurin knockout mice and control mice were examined using Affymetrix GeneChip arrays.

Project description:Schnurri-2 (Shn-2), an NF-kappa B site-binding protein, tightly binds to the enhancers of major histocompatibility complex (MHC) class I genes and inflammatory cytokines, which have been shown to harbor common variant single nucleotide polymorphisms associated with schizophrenia. Shn-2 knockout mice show behavioral abnormalities that strongly resemble those of schizophrenics. We performed gene expression microarray analysis of dentate gyri from Shn-2 knockout and wild-type control mice. Dentate gyrus RNA isolated from six Shn-2 knockout and six control wild-type mice were compared.