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:Direct conversion of fibroblasts into stably expandable neural stem cells

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 anterior and posterior cranial regions of E9.25 mouse embryos.

Project description:Generation of oligodendroglial cells by direct lineage conversion

Project description:Direct lineage conversion of terminally differentiated hepatocytes to functional neurons

Project description:Norepinephrine transporter-deficient neural crest cells

Project description:Generation of CNS neural stem cells and PNS derivatives from neural crest derived peripheral stem cells [Dataset 1]

Project description:Generation of CNS neural stem cells and PNS derivatives from neural crest derived peripheral stem cells [Dataset 2]

Project description:Although transcription factor(TF)s regulate differentiation-related processes, including dedifferentiation and direct conversion, functional interactions between TFs regulating these processes are not well understood. Here we show that TFs preventing dedifferentiation are able to induce direct conversion. Using a neural lineage cell line and a large number of TFs expressed in it, we found a subset of TFs whose overexpression strongly interfered with dedifferentiation triggered by a procedure to induce induced pluripotent stem cells (iPSC), through a maintenance mechanism of the cell-type-specific transcriptional profile. Strikingly, the maintenance activity of the interfering TF set was strong enough to induce the cell line-specific transcriptional profile when overexpressed in a heterologous cell type. In addition, TFs that interfered with dedifferentiation in hepatic lineage cells involved known TFs with induction activity for hepatic lineage cells. Our results suggest that dedifferentiation suppresses a cell-type-specific transcriptional profile, which is primarily maintained by a small subset of TFs capable of inducing direct conversion. We anticipate that this functional correlation might be applicable in various cell types, which may include cancer cells, and might facilitate identification of TFs with induction activity to understand differentiation and tumorigenesis Examination of binding of 3 transcription factors and histone modifications in Neural progenitor like cells.

Project description:Embryonic and adult neural crest stem cells