Project description:During development of the mammalian central nervous system (CNS), neurons and glial cells (astrocytes and oligodendrocytes) are generated from common neural precursor cells (NPCs). However, neurogenesis precedes gliogenesis, which normally commences at later stages of fetal telencephalic development. Astrocyte differentiation of mouse NPCs at embryonic day (E) 14.5 (relatively late gestation) is induced by activation of the transcription factor STAT3, whereas at E11.5 (mid-gestation) NPCs do not differentiate into astrocytes even when stimulated by STAT3-activating cytokines such as leukemia inhibitory factor (LIF). This can be explained in part by the fact that astrocyte-specific gene promoters are highly methylated in NPCs at E11.5, but other mechanisms are also likely to play a role. We therefore sought to identify genes involved in the inhibition of astrocyte differentiation of NPCs at midgestation. We first examined gene expression profiles in E11.5 and E14.5 NPCs, using Affymetrix GeneChip analysis, applying the Percellome method to normalize gene expression level. We then conducted in situ hybridization analysis for selected genes found to be highly expressed in NPCs at midgestation. Among these genes, we found that N-myc and high mobility group AT-hook 2 (Hmga2) were highly expressed in the E11.5 but not the E14.5 ventricular zone of mouse brain, where NPCs reside. Transduction of N-myc and Hmga2 by retroviruses into E14.5 NPCs, which normally differentiate into astrocytes in response to LIF, resulted in suppression of astrocyte differentiation. However, sustained expression of N-myc and Hmga2 in E11.5 NPCs failed to maintain the hypermethylated status of an astrocyte-specific gene promoter. Taken together, our data suggest that astrocyte differentiation of NPCs is regulated not only by DNA methylation but also by genes whose expression is controlled spatio-temporally during brain development. Experiment Overall Design: Neuroepithelial cells(NPCs) were prepared from telencephalons of E11.5 and E14.5 mice and cultured in N2-supplemented Dulbecco's Modified Eagle's Medium with F12 (GIBCO) containing 10 ng/ml basic FGF (R&D Systems) (N2/DMEM/F12/bFGF) on culture dishes (Nunc) or chamber slide (Nunc) which had been precoated with poly-L-ornithine (Sigma) and fibronectin (Sigma). E11.5 NPCs were cultured for one day and E14.5 NPCs were for four days.

Project description:During development of the mammalian central nervous system (CNS), neurons and glial cells (astrocytes and oligodendrocytes) are generated from common neural precursor cells (NPCs). However, neurogenesis precedes gliogenesis, which normally commences at later stages of fetal telencephalic development. Astrocyte differentiation of mouse NPCs at embryonic day (E) 14.5 (relatively late gestation) is induced by activation of the transcription factor STAT3, whereas at E11.5 (mid-gestation) NPCs do not differentiate into astrocytes even when stimulated by STAT3-activating cytokines such as leukemia inhibitory factor (LIF). This can be explained in part by the fact that astrocyte-specific gene promoters are highly methylated in NPCs at E11.5, but other mechanisms are also likely to play a role. We therefore sought to identify genes involved in the inhibition of astrocyte differentiation of NPCs at midgestation. We first examined gene expression profiles in E11.5 and E14.5 NPCs, using Affymetrix GeneChip analysis, applying the Percellome method to normalize gene expression level. We then conducted in situ hybridization analysis for selected genes found to be highly expressed in NPCs at midgestation. Among these genes, we found that N-myc and high mobility group AT-hook 2 (Hmga2) were highly expressed in the E11.5 but not the E14.5 ventricular zone of mouse brain, where NPCs reside. Transduction of N-myc and Hmga2 by retroviruses into E14.5 NPCs, which normally differentiate into astrocytes in response to LIF, resulted in suppression of astrocyte differentiation. However, sustained expression of N-myc and Hmga2 in E11.5 NPCs failed to maintain the hypermethylated status of an astrocyte-specific gene promoter. Taken together, our data suggest that astrocyte differentiation of NPCs is regulated not only by DNA methylation but also by genes whose expression is controlled spatio-temporally during brain development. Keywords: Cell type comparison

Project description:We performed single cell RNA sequencing to analyze the transcriptional profile of gliogenic NS/PCs and neurogenic NS/PCs derived from the same parental feeder-free iPSCs.

Project description:Embryonic day (E)12.5 whole murine embryos, E11.5 - E14.5 whole murine embryos, E11.5 - E14.5, post-natal day (P)3 and P35 murine forelimbs, E14.5 brains, and COL1A2-mutant and COL1A2-WT forelimbs were fractionated and specific fractions were analyzed via LC-MS/MS. Aha-enrichment experiments consisted of in vivo protein labeling with azidohomoalanine (Aha) followed by tissue fractionation of the forelimbs and enrichment of labeled ECM proteins from the final IN pellet ('enriched'). 'Unenriched samples', or the background from which newly synthesized proteins were enriched from, were also analyzed via LC-MS/MS.

Project description:Mouse NS/PCs DNA methylome (PBAT)

Project description:Purpose: The goals of this study are to investigate the effect of prenatal VPA exposure on transcriptome profile of NS/PCs during development, and the effect of exercise on transcriptome profile of adult NS/PCs in prenatal VPA exposed mice. Methods: NS/PCs mRNA profiles of embryonic day15 (E15), postnatal day5 (P5) and 12-week-old (12w) contol mice and E15, P5, 12w with or without voluntary exercise prenatal VPA exposed mice were generated by deep sequencing, in triplicate, using Illumina Hiseq 2500. The sequence reads that passed quality filters were analyzed at the transcript isoform level with a method: TopHat/Bowtie2 followed by Cufflinks.NS/PCs were isolated from forebrain (E15), hippocampal dentate gyrus (P5 and 12w) of Nestin-EGFP mice. Results: Hierarchial clustering using eighteen samples (E15 Ctrl, E15 VPA, P5 Ctrl, P5 VPA, 12w Ctrl, 12w VPA, three samples each) identified three distinct clusters composed of NS/PCs derived from each developmental stage. Gene set enrichment analysis using transcriptome of E15 Ctrl and E15 VPA revealed a significant increase in the expression of neuron differentiation- and nervous system development-related genes in VPA compared with Ctrl. Gene ontology analysis of biological processes using differentially expressed genesin 12w VPA compared with 12w Ctrl revealed that expression levels of cell-migration-associated genes were altered. Voluntary running mostly amended both positively and negativly distorted gene expression in the 12w VPA compared with 12w Ctrl NS/PCs. The altered expression of cell migration-related genes was largely normalized by voluntary running.

Project description:This experiment depicts RNA-Seq datasets from wild type XY male and XX female, as well as sex chromosomally abnormal XO female (Turner syndrome) and XX male (Klinefelter variant syndrome) mouse germ cells before, during and after germline reprogramming. This range from E6.5 epiblasts, fluorescence activated cell sorted (FACS) highly purified populations of germ cells (EGFP-positive) and gonadal somatic cells (EGFP-negative) from both sexes at E9.5, E11.5, E12.5, E14.5, E15.5, E16.5 and E18.5, as well as purified spermatogonia and leptotene / zygotene spermatocytes from P2 and P11 males, respectively. Non-gonadal somatic cell control datasets were generated from male and female E14.5 liver and tail. Germ cells from individual embryos were processed to make cDNA libraries and served as biological replicates. We generated in total 184 libraries for our analysis from 60 separate conditions.

Project description:Direct conversion of pericytes (PCs) or mouse embryonic fibroblasts (MEFs) into induced oligodendrocytes (iOPCs) by ectopic expression of Olig2, Sox10 and Nkx6.2 was assessed by transcriptome profiling (RNA-seq). Samples were collected before and after direct conversion (for PCs at 3 different time points/passages - p5, p15 and p25)

Project description:Single cell RNA-seq analysis of feeder-free iPSC-derived gliogenic NS/PCs and neurogenic NS/PCs

Project description:Tumorigenic iPSC-NS/PCs with mesenchymal properties