Project description:Differentiation assays with neural progenitor cells of the enteric nervous system (ENS) showed elongated neurite outgrowth under influence of 3,5,3'-Triiodothyronine (concentrations 50 nm and 100 nm). For analysis, neural cells were stained with TUJ1 (beta-Tubulin III). Microarray analysis should enlighten these results on a genetical basis and give hints about the regulation pathways. We analyzed 2 groups with 3 samples each: 1 group consistent of cells treated with 100 nm T3 for 1 day and 1 control group consistens of cells without T3 treatment

Project description:All established protocols for differentiation of mouse and human pluripotent stem cells into specific neural subpopulations generate a considerable cellular heterogeneity that hampers experimental and clinical progress. In order to obtain a homogenous population of neuronal precursor cells and to streamline the differentiation of embryonic stem cells (ESCs), we assessed PSA-NCAM, a surface glycoprotein that is specifically expressed on immature neurons. We developed an optimized strategy for magnetic isolation of PSA-NCAM positive neuronal precursors from differentiated ESC cultures and characterized their neuronal differentiation potential in vitro. PSA-NCAM enrichment at an early step of neural differentiation increased the number of ES cell derived neurons and reduced cellular diversity. Gene expression analysis revealed that mainly genes involved in neuronal activity were over-represented after purification. The in vivo potential of in vitro derived PSA-NCAM+ enriched precursors was functionally characterized by grafting into the forebrain of adult mice. Analysis for several neuronal and glia markers at 10 or 40 days post graft showed a distinct differentiation pattern. While unsorted control cells gave rise to a mixed population composed of immature precursors, early postmitotic neurons or glial cells, the majority of PSA-NCAM+ enriched cells differentiated into NeuN positive neurons. Furthermore, when in contact with the rostral migratory stream, higher numbers of cells integrated into the stream and migrated towards the olfactory bulb when the PSA-NCAM enriched population was grafted. Thus, enrichment of neuronal precursors based on PSA-NCAM expression represents a general and straightforward approach to narrow cellular heterogeneity during neuronal differentiation of pluripotent cells. Two conditions (step 4, step 5), each represented by three biological replicates of control and enriched cells (Cy5); mESC was used as common reference (Cy3)

Project description:RNA-seq samples from 3 species across a differentiation from induced pluripotent stem cells to neural progenitor cells were generated to study gene expression evolution. Briefly, previously generated urinary stem cell derived iPSCs of 3 human (Homo sapiens) individuals (3 clones), 1 gorilla (Gorilla gorilla) individual and fibroblast derived cynomolgus macaque (Macaca fascicularis) iPSCs of 2 individuals (4 clones) (Geuder et al. 2021) were differentiated to neural progenitor cells via dual-SMAD inhibition as three-dimensional aggregation culture (Chambers et al. 2009; Ohnuki et al. 2014). Bulk RNA-seq libraries of iPSCs and NPCs were generated using prime-seq protocol (Janjic et al. 2022).

Project description:In this study we sought to determine the effect of overexpressing the SUMOylation E2 conjugase Ubc9 on the response of murine Neural Stem Cells (NSCs) to oxygen-glucose-deprivation and restoration of oxygen/glucose (OGD/ROG). We established stably-expandable lines of NSCs from the subventricular zones (SVZ) of adult wild-type mice (WT NSCs) and Ubc9-overexpressing mice (Ubc9 NSCs) and profiled their transcriptional changes in response to OGD/ROG as well as in response to differentiation.

Project description:Here we performed a microarray experiment on samples of adherent cultures of mouse neural stem cells (NS5 cell line) expressing an inducible version of the transcription factor MyT1 (MyT1-V5 TetON) under normal growth conditions and after 4 hours of treatment by doxycyline. This resulted in the generation of a genome-wide mRNA expression pattern and quantification for these cells in the two conditions.

Project description:Here we performed a RNA-seq experiment on samples of adherent cultures of mouse neural stem cells (NS5 cell line) under normal growth conditions and after 4 hours of treatment with the gamma-secretase inhibitor LY 411575. This resulted in the generation of a genome-wide mRNA expression pattern and quantification for these cells in the two conditions.

Project description:Purpose: The aim of this study is to identify genes that are under the transcriptional control of the epigenetic regulator Smchd1 in neural stem cells (NSCs) derived from E14.5 mouse brain Methods: Total RNA was extracted using an AllPrep DNA/RNA Mini Kit (Qiagen) from cultured neural stem cells derived from male mouse E14.5 brains either wild-type or null for Smchd1. 1 µg total RNA was used to generate sequencing libraries for whole transcriptome analysis with Illumina’s TruSeq RNA Sample Preparation Kit v2 as per standard protocols. Libraries were sequenced on HiSeq 2000 with Illumina TruSeq SBS Kit v3-HS reagents as either 100 bp single-end or paired-end reads at the Australian Genome Research Facility (AGRF), Melbourne. Reads were aligned to the mouse reference genome mm10 and mapped to known genomic features at the gene level using the Rsubread package (version 1.10.5) (Liao et al. 2013). Mapped reads were then summarized into gene-level counts using FeatureCounts (Liao et al. 2014). Total RNA was extracted and purified from each cell line and their transcriptomes analyzed by RNA-Seq.

Project description:We describe a so far uncharacterized, embryonic and self-renewing Neural Plate Border Stem Cell (NBSC) population with the capacity to differentiate into central nervous and neural crest lineages. NBSCs can be obtained by neural transcription factor-mediated reprogramming (BRN2, SOX2, KLF4, and ZIC3) of human adult dermal fibroblasts and peripheral blood cells (induced Neural Plate Border Stem Cells, iNBSCs) or by directed differentiation from human induced pluripotent stem cells. Moreover, human (i)NBSCs share molecular and functional features with an endogenous NBSC population isolated from neural folds of E8.5 mouse embryos. Upon differentiation, iNBSCs give rise to either (1) radial glia-type stem cells, dopaminergic and serotonergic neurons, motoneurons, astrocytes, and oligodendrocytes or (2) cells from the neural crest lineage. Here we provide array-based expression data of primary mouse Neural Plate Border Stem Cells (pNBSCs) derived from E8.5 mouse embryos and radial glia-type stem cells and neural crest progenitors derived thereof. The data provided reveal that pNBSCs can be directed into defined neural cell types of the CNS- and neural crest lineage.

Project description:In mammals, dosage compensation for the sex chromosomes is achieved by transcriptional silencing of one of the two X chromosomes in females. The inactive X adopts a particular epigenetic state, characterised by specific histones, histone marks, DNA methylation and 3D chromatin structure. As allelic resolution with short-read sequencing is limited, we do not yet have chromosome-wide phased methylomes of the active and inactive X. In this study, we obtained such complete X methylomes in mouse placenta and neural stem cells (NSCs) via long-read nanopore sequencing. This accession corresponds to the RNA-seq for the NSCs.

Project description:CRISPR/Cas9-mediated gene-editing allows manipulation of a gene of interest in its own chromosomal context. When applied to the analysis of protein interaction, and in contrast to an exogenous expression of a protein, these can be studied maintaining physiological stochiometries, topology and context. We have used CRISPR/Cas9-mediated recombination to Cluap1/ IFT38, a component of the intraflagellar transport complex B (IFT-B). Cluap1 has been implicated in human development as well as in cancer progression. Cluap1 loss of function results in early developmental defects with neural tube closure, sonic hedgehog signaling and left-right defects. Herein, we generated an endogenously tagged Cluap1 for protein complex analysis which was then correlated to the corresponding interactome determined by ectopic expression.