Project description:Postnatal neuroblasts were microdissected by laser micro dissection from posterior and anterior rostral migratory stream (RMS). Neuroblasts in the posterior RMS are just started their migration. Neuroblasts in the anterior RMS are already migrated for several days in the stream

Project description:To analyze OTX2 function in adult choroid plexus, we performed several OTX2 co-immunoprecipitation (co-IP) experiments with mass spectrometry analysis to identify potential protein partners. We previously discovered that OTX2 protein also accumulates non-cell autonomously in subventricular zone (SVZ) and rostral migratory stream (RMS) astrocytes and in visual cortex (VCx) parvalbumin cells. The identification of alternate protein partners in cell-autonomous and non-cell-autonomous contexts would suggest OTX2 takes on specific roles after transferring between cells. In order to test this hypothesis, and to reinforce choroid plexus analysis, we also performed OTX2 co-IP on lysates from adult mouse SVZ, RMS and VCx.

Project description:Developmental regulation of long-range neuroblast migration by Eph/ephrin signaling

Project description:We performed deep-sequencing analysis of small RNA extracted from neuronal progenitors at different developmental stages. The RNA samples were extracted from microdissected tissues of dorsal or lateral sub-ventricular zone (SVZ) (to analyze the immature progenitor pools), of rostral migration stream (RMS) (to analyze the migrating neuroblasts) or of olfactory bulbs (OB) (to analyze both immature and mature neurons). These tissues were dissected from animals at variable ages: P1 and P6 for SVZ samples, P15 and P28 for RMS and OB samples. Expression profile of microRNA in time and space along post-natal neurogenesis

Project description:A brain consists of numerous distinct neurons arising from a limited number of progenitors, called neuroblasts in Drosophila. Each neuroblast makes a specific neuronal lineage. To unravel the transcriptional networks that underlie the development of distinct neuroblast lineages, we marked and isolated lineage-specific neuroblasts for RNA sequencing. We labeled particular neuroblasts throughout neurogenesis by activating a conditional neuroblast driver in specific lineages using various intersection strategies. The targeted neuroblasts were efficiently recovered using a custom-built device for robotic single cell picking. Transcriptome analysis on the mushroom body, antennal lobe, and type II neuroblasts besides non-selective neuroblasts, neurons, and glia revealed a rich repertoire of transcription factors expressed among neuroblasts in diverse patterns. In addition to those likely pan-neuroblast transcription factors, there exist many transcription factors selectively enriched or repressed in certain neuroblasts. The unique combinations of transcription factors present in different neuroblasts may govern the diverse lineage-specific neuron fates

Project description:Neural stem cells, located in discrete niches in the adult brain, generate new neurons throughout life. These stem cells are specialized astrocytes, but astrocytes in other brain regions (parenchymal astrocytes) do not generate neurons under physiological conditions. After stroke, however, astrocytes in the mouse striatum undergo neurogenesis, triggered by decreased Notch signaling. Notch signaling can be experimentally depleted in mice by deleting the Notch-mediating transcription factor Rbpj. This dataset consists of single-cell RNA sequencing data of astrocytes isolated from the striatum (where astrocytes undergo neurogenesis in response to Rbpj deletion) or somatosensory cortex (where astrocytes don't complete neurogenesis in response to Rbpj deletion) of 4 mice. Cells were isolated from Cx30-CreER; R26-tdTomato; Rbpj(fl/fl) mice at three time points after tamoxifen-induced Rbpj deletion (2, 4, 8 weeks), and from Cx30-CreER; R26-tdTomato mice with intact Rbpj 3 days after tamoxifen. These time points span the transition from astrocyte through transit-amplifying cells to neuroblasts. The dataset contains 1) astrocytes from the striatum that initiate a neurogenic transcriptional program in response to Rbpj deletion and generate transit-amplifying cells and neuroblasts, and 2) astrocytes from the somatosensory cortex that initiate a neurogenic program in response to Rbpj deletion but fail to generate transit-amplifying cells or neuroblasts.

Project description:We performed deep-sequencing analysis of small RNA extracted from neuronal progenitors at different developmental stages. The RNA samples were extracted from microdissected tissues of dorsal or lateral sub-ventricular zone (SVZ) (to analyze the immature progenitor pools), of rostral migration stream (RMS) (to analyze the migrating neuroblasts) or of olfactory bulbs (OB) (to analyze both immature and mature neurons). These tissues were dissected from animals at variable ages: P1 and P6 for SVZ samples, P15 and P28 for RMS and OB samples.

Project description:The hypothesis tested in the present study was that activation of Eph or ephrin signaling in neural progenitors induces a transcriptional response which participate in the control of progenitor self-renewal. Results provide important information on transcriptional changes in response to activation of Eph receptors. They also show that activation of ephrin signaling does not induce a transcriptional response at genome-wide level.

Project description:The role of Eph/ephrin signaling in numerous biological processes has been established. However, Eph/ephrin signaling has been shown to have complex role in tumor progression. The role of EphB2 receptor in the progression of cutaneous squamous cell carcinoma (cSCC) has not been studied before. EphB2 is significantly overexpressed in cSCC cells compared with normal human epidermal keratinocytes (NHEKs). We used microarray based global gene expression profiling to study the effect of EphB2 knockdown on the expression of different genes in cSCC cells.

Project description:The role of Eph/ephrin signaling in numerous biological processes has been established. However, Eph/ephrin signaling has been shown to have complex role in tumor progression. The role of EphB2 receptor in the progression of cutaneous squamous cell carcinoma (cSCC) has not been studied before. EphB2 is significantly overexpressed in cSCC cells compared with normal human epidermal keratinocytes (NHEKs). We used microarray based global gene expression profiling to study the effect of EphB2 knockdown on the expression of different genes in cSCC cells. cSCC cell lines (n=3) were transfected with either control or EphB2 siRNA (75 nM) and incubated for 72 hours. Total RNA was extracted and processed expression profiling with GeneChip 3’ IVT Express Kit according to manufacturer’s protocol.