Project description:To elucidate molecular features of the cells of Sub-ventricular Zone (SVZ), their progeny at each differentiation stage, and surrounding cells in SVZ under blast wave-induced changes, cells were profiled from matched SVZ of 3 mice that had received blast injury and 3 controls(The controls sequencing profile can be assessed in GEO at GSM5938054).Cell type specific gene expression responding to (blast-related traumatic brain injury, bTBI) were revealed, some of which were closely associated with pathogenesis post-injury. Furthermore, the diverse cell to cell interaction networks uncovered an array of cellular processes under bTBI. Our gene expression atlas provides extensive resources for future researches regarding bTBI induced pathogenesis, its therapeutic interventions or diagnostic tests.
Project description:Transcriptional profiling of subventricular zone (SVZ) progenitors comparing control healthy mice to mice induced to develop an autoimmune demyelination (EAE model). Goal was to unveil genes involved in demyelination-induced reactivity of SVZ progenitors.
Project description:The subependymal zone (SEZ), also known as the subventricular zone (SVZ), constitutes a neurogenic niche that persists during post-natal life. To investigate the cellular diversity of this brain region during human adulthood, we characterized the complete cellular niche of the adult human SEZ by single-nucleus RNA sequencing (snRNAseq), in youth and middle-aged adults.
Project description:Partial reprogramming has the potential to reverse age-related decline in some tissues. Its impact on the cell types within the aging brain, particularly the subventricular zone neurogenic niche, is unknown.
Project description:Transcriptional profiling of subventricular zone (SVZ) progenitors comparing control healthy mice to mice induced to develop an autoimmune demyelination (EAE model). Goal was to unveil genes involved in demyelination-induced reactivity of SVZ progenitors. Two-condition experiment, healthy vs. EAE derived SVZ progenitors. Biological replicates: 2 control replicates, 2 EAE replicates. SVZ progenitors were sorted in two cell populations: neuronal progenitors (PSA-NCAM magnetic sorting) and glial progenitors (NG2 magnetic sorting). Progenitors from healthy mice are reference samples.
Project description:Throughout postnatal life in mammals, neural stem cells (NSCs) are located in the subventricular zone (SVZ) of the lateral ventricles. The greatest diversity of neuronal and glial lineages they generate occurs during early postnatal life in a region-specific manner. In order to evaluate potential heterogeneity in the NSC pool, we microdissected the dorsal and lateral SVZ at different postnatal ages and isolated NSCs and their immediate progeny based on their expression of Hes5-EGFP/Prominin1 and Ascl1-EGFP, respectively. Whole genome comparative transcriptome analysis revealed transcriptional regulators as major hallmarks that sustain postnatal SVZ regionalization. Manipulation of single genes encoding for locally enriched transcription factors influenced NSC specification indicating that the fate of regionalized postnatal SVZ NSCs can be readily modified . These findings reveal functional heterogeneity of NSCs in the postnatal SVZ and provide targets to recruit region-specific lineages in regenerative contexts. Microarrays of neural stem cells, early progenitors and the tissue from subregions of the subventricular zone were compiled to screen for the full extent of heterogeneity in this region during postnatal life. Spatially distinct regions of the developing forebrain subventricular zone (SVZ) aged at P4, P8 and P11 were microdissected in RNAse free/sterile conditions. Mice expressing Ascl1-EGFP in the SVZ were used to aid accurate microdissection of the dorsal and lateral wall of each of the studied time points as per our previous publications characterizing this method. As well as at the whole microdomain level, additionally, NSCs (Hes5-EGFP+/Prom1+) and early progenitors (Ascl1-EGFP+) from each microdomain were further isolated by FAC sorting methods. This was to provide a comprehensive gene expression analysis at the tissue level and at the cellular level. Generally, 1 litter was used to yield 1 'n' number of replicates. A total of 23 affymetrix analysis were performed.
Project description:Transforming growth factor (TGF)-ß1 is a multifunctional cytokine regulating a number of physiological and patho-physiological processes in the adult brain. Its expression is elevated during neurodegeneration, which is associated with reduced levels of neurogenesis. We have postulated that TGF-ß1 might be one of the crucial factors involved in limiting neurogenesis in the diseased brain. We used microarrays to detail the gene expression profile after TGFbeta-1 treatment and identified distinct classes of up- and downregulated genes. Keywords: control versus TGFbeta1 treated group Adult rat subventricular zone cells were cultured for 7 days under proliferation conditions. Control cells were exposed to HCl/BSA whereas TGFbeta-1 treated cells received 10 ng/ml TGFbeta-1 dissolved in HCl/BSA 3 times per week. RNA was extracted followed by hybridization on Affymetrix microarrays.
Project description:Transforming growth factor (TGF)-ß1 is a multifunctional cytokine regulating a number of physiological and patho-physiological processes in the adult brain. Its expression is elevated during neurodegeneration, which is associated with reduced levels of neurogenesis. We have postulated that TGF-ß1 might be one of the crucial factors involved in limiting neurogenesis in the diseased brain. We used microarrays to detail the gene expression profile after TGFbeta-1 treatment and identified distinct classes of up- and downregulated genes. Keywords: control versus TGFbeta1 treated group Adult rat subventricular zone cells were cultured for 7 days under proliferation conditions. Control cells were exposed to HCl/BSA whereas TGFbeta-1 treated cells received 10 ng/ml TGFbeta-1 dissolved in HCl/BSA 3 times per week. RNA was extracted followed by hybridization on Affymetrix microarrays.