Project description:In mammals, retinal damage is followed by Müller glia cell activation and proliferation. While retinal gliosis persists in adult mammals after an insult or disease, some vertebrates, including zebrafish, have the capacity to regenerate. We believe we are the first group to show that gliosis is a fibrotic-like process in mammals’ eyes caused by differential activation of canonical and non-canonical TGFβ signaling pathways.

Project description:Adult muscle stem cells show a high transcriptional and clonal heterogeneity during ageing. Whether microRNAs contribute to this diversity is not known. Here we use tissue-specific genetic deletion of microRNA (miR)-501 that is highly enriched in activated myogenic progenitor cells to address this question. Single-cell sequencing revealed a novel subpopulation of committed myogenic progenitor cells in miR-501 knockout mice that express high levels of terminal differentiation markers and inflammatory genes such as CD74. Our data show that stem cell heterogeneity in skeletal muscle during ageing is under miRNA control.

Project description:MicroRNAs (miRNAs) are important in the regulation of many biological processes such as growth and development. To evaluate the role of miRNAs in skeletal muscle regeneration, global miRNA expression was measured during muscle cell growth and differentiation. Primary cultures of murine myogenic progenitor cells (MPC) were studied for miRNA expression using quantitative PCR-array. During MPC differentiation or proliferation, 139 or 16 miRNAs, respectively, exhibited significant >2-fold changes. Cluster analysis revealed 5 distinct miRNA expression patterns at different stages of differentiation. Fourteen miRNAs exhibiting >10-fold change during differentiation included miR-1, 10b, 96, 98, 133a, 139-5p, 330, 335-3p, 339-5p, 344, 486, 499, 504, and 598. Ten of these miRNAs were located in introns of protein coding genes, such as miR-499 located in the myosin heavy chain isoform Myh7b. In silico analysis of possible miRNA-mRNA interactions indicated that many of these miRNAs targeted mRNA critically involved in muscle differentiation. Interestingly, several miRNAs targeted different sites in a given mRNA, suggesting coordinated expression of multiple miRNAs to ensure the regulation of essential genes. These results identify differentially expressed miRNAs that could represent new regulatory elements in MPC proliferation and differentiation. Myogenic progenitor cell (MPC) growth and differentiation are key elements duing muscle regeneration. Using defined culture conditions to promote proliferation or differentiation, we profiled miRNA expression in primary cultures of murine MPC.

Project description: Not available

Project description:Differential microRNA Expression during Muscle Regeneration

Project description:Neural crest cells are migratory progenitor cells that contribute to nearly all tissues and organs throughout the body. Their formation, migration and differentiation are regulated by a multitude of signaling pathways, that when disrupted can lead to disorders termed neurocristopathies. While work in avian and amphibian species has revealed essential factors governing the specification and induction of neural crest cells during gastrulation and neurulation in non-mammalian species, their functions do not appear to be conserved in mice, leaving major gaps in our understanding of neural crest cell formation in mammals. Here we describe Germ Cell Nuclear Factor (GCNF/Nr6a1), an orphan nuclear receptor, as a critical regulator of neural crest cell formation in mice. Gcnf null mutant mice, exhibit a major disruption of neural crest cell formation. The purpose of this experiment is to examine gene expression changes in response to Gcnf mutation in E9.0 mouse embryos.

Project description:Genome-wide remodeling of the epigenetic landscape during myogenic differentiation

Project description:H2AZ Orchestrates Neural Progenitor Cell Proliferation and Differentiation via Setd2-mediated H3K36me3 Modification [RNA-seq]

Project description:H2AZ Orchestrates Neural Progenitor Cell Proliferation and Differentiation via Setd2-mediated H3K36me3 Modification [ChIP-seq]

Project description:lncRNA SYISL contributes to the genome-wide expression during myogenic differentiation