Project description:Bergmann glial cells of the vertebrate cerebellum play essential roles in the development and maintenance of cerebellar structure and function. During development, Bergmann glia provide structural support to the expanding cerebellar anlage and also serve as guides for migrating neurons (granule cells). As the cerebellum matures, Bergmann glia become important in dendritic arborization, synapse maintenance and synaptic function. The molecular mechanisms underlying these diverse and important functions of Bergmann glia remain largely unknown. We used microarray analysis to examine global gene expression in individual Bergmann glial cells derived at P6 (a time of extensive neuronal migration and cerebellar growth) and at P30 (when cerebellar development is complete and Bergmann glia play important roles at synapses).

Project description:Photoreceptor damage in adult mammals results in permanent cell loss and glial scarring in the retina. In contrast, adult zebrafish can regenerate photoreceptors following injury. By using a stable transgenic line in which GFP is driven by the cis-regulatory sequences of a glial specific marker gfap, Tg(gfap:GFP)mi2002, previous studies showed that Müller glia, the radial glial cells in the retina, proliferate after photoreceptor loss and give rise to neuronal progenitors that eventually differentiate into regenerated photoreceptors. To identify the molecular mechanisms that initiate this regenerative response, Müller glia were isolated from Tg(gfap:GFP)mi2002 fish during the early stages of regeneration after light lesion and gene expression profiles were generated by microarray analyses. Keywords: time course Retinas were dissected from Tg(gfap:GFP)mi2002 zebrafish at 8, 16, 24, 36 hour post-lesion (hpl) and non-light-treated controls (0 hpl) and were dissociated by enzymatic digestion. GFP+ Müller glia were isolated by fluorescence-activated cell sorting (FACS) for RNA extraction and hybridization on Affymetrix microarrays. Independent hybridization of three biological replicates were performed for each time point.

Project description:Photoreceptor damage in adult mammals results in permanent cell loss and glial scarring in the retina. In contrast, adult zebrafish can regenerate photoreceptors following injury. By using a stable transgenic line in which GFP is driven by the cis-regulatory sequences of a glial specific marker gfap, Tg(gfap:GFP)mi2002, previous studies showed that Müller glia, the radial glial cells in the retina, proliferate after photoreceptor loss and give rise to neuronal progenitors that eventually differentiate into regenerated photoreceptors. To identify the molecular mechanisms that initiate this regenerative response, Müller glia were isolated from Tg(gfap:GFP)mi2002 fish during the early stages of regeneration after light lesion and gene expression profiles were generated by microarray analyses. Keywords: time course

Project description:The study was aimed at comparing the transcriptome of MG cells of the retina with the progenitors derived from them after an injury. This information will help in the identification of factors that are responsible for the retinal regeneration. Muller glia were isolated by fluorescent activated cell sorting (FACS) using uninjured retinas from transgenice zebrafish (gfap:gfp) where green florescent protein (GFP) is under the control of the glial fibrillary acidic protein (gfap) promoter. MG-derived retinal progenitors were isolated by FACS at 4 days post retinal injury from 1016 tuba1a:gfp transgenic fish where GFP is driven by the tuba1a promoter which is specifically activated in these progenitors. Total RNA was isolated from these cell populations and subjected to microarray analysis to compare their transcriptomes. Samples were prepared in duplicate.

Project description:To identify the gene expression profile of enteric glia and assess the transcriptional similarity between enteric and extraenteric glia, we performed RNA sequencing analysis on PLP1-expressing cells in the mouse intestine. This analysis shows that enteric glia are transcriptionally unique and distinct from other cell types in the nervous system. Enteric glia express many genes characteristic of the myelinating glia, Schwann cells and oli- godendrocytes, although there is no evidence of myelination in the murine ENS. Total RNA expression profiles of PLP1 expressing enteric glial cells (GFP+) and non-glial cells (GFP-negative) were obtained from the ileum and colon of juvenile PLP1-eGFP transgenic mice.

Project description:A subgroup of Posterior fossa ependymomas show reduced H3K27me3 are more invasive, exhibit poor prognosis and epigenetically deregulated genes converge on radial glial factors, suggesting developing cerebellar radial glia as candidate cells-of-origin.

Project description:A subgroup of Posterior fossa ependymomas show reduced H3K27me3, global DNA hypomethylation, are more invasive, exhibit poor prognosis and epigenetically deregulated genes converge on radial glial factors, suggesting developing cerebellar radial glia as candidate cells-of-origin.

Project description:A subgroup of Posterior fossa ependymomas show reduced H3K27me3, global DNA hypomethylation, are more invasive, exhibit poor prognosis and epigenetically deregulated genes converge on radial glial factors, suggesting developing cerebellar radial glia as candidate cells-of-origin.

Project description:Cerebellar circuitry is critical for balance and motor control among a wide array of functions and largely consists of granule and Purkinje neurons. Bergmann glia in the cerebellum form distinct morphological structures that facilitate granule neuron migration during development and that maintain the cerebellar organization and functional integrity. At present, molecular control of the formation and morphogenesis of Bergmann glia remains obscure. In this study, we found that Zeb2 (a.k.a. Sip1 or Zfhx1b), a Mowat-Wilson syndrome-associated transcriptional regulator, is highly restricted to Bergmann glia and is essential for their development and maturation. The mice with Zeb2 ablation in the cerebellar neural progenitor exhibit dysgenesis of cerebellar cortical lamination and locomotion defects. Deletion of Zeb2 markedly reduced Bergmann glial proliferation, differentiation and the establishment of the normal radial scaffold, disrupting migration of granule cell progenitors from external to internal granular layers. Transcriptome profiling indicated that Zeb2 regulates multiple pathways including FGF and Notch signaling as well as axonal guidance cues including Netrin G2 and Gdf10 to control Bergmann glial development. Our data reveal that Zeb2 acts as a transcriptional integrator of diverse signaling pathways to regulate the formation and morphogenesis of Bergmann glia ensuring maintenance of cerebellar integrity, suggesting that Zeb2 dysfunction in Bergmann glia might contribute to motor deficits in Mowat-Wilson syndrome.

Project description:A subset of genomically silent childhood posterior fossa ependymomas show reduced H3K27me3, global DNA hypomethylation, are more invasive, exhibit poor prognosis and epigenetically deregulated genes converge on radial glial factors, suggesting developing cerebellar radial glia as candidate cells-of-origin.