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MeCP2 Dependent Heterochromatin Reorganization during Neural Differentiation of a Novel Mecp2-Deficient Embryonic Stem Cell Reporter Line
Authors:Bianca Bertulat  Maria Luigia De Bonis  Floriana Della Ragione  Anne Lehmkuhl  Manuela Milden  Christian Storm  K. Laurence Jost  Simona Scala  Brian Hendrich  Maurizio D’Esposito  M. Cristina Cardoso
Affiliation:1. Department of Biology, Technische Universität Darmstadt, Darmstadt, Germany.; 2. Institute of Genetics and Biophysics “A Buzzati Traverso”, Naples, Italy.; 3. Istituto di Ricovero e Cura a Carattere Scientifico Neuromed, Pozzilli, Italy.; 4. Wellcome Trust - Medical Research Council Stem Cell Institute and Department of Biochemistry, University of Cambridge, Cambridge, United Kingdom.; Université Paris-Diderot, France,
Abstract:The X-linked Mecp2 is a known interpreter of epigenetic information and mutated in Rett syndrome, a complex neurological disease. MeCP2 recruits HDAC complexes to chromatin thereby modulating gene expression and, importantly regulates higher order heterochromatin structure. To address the effects of MeCP2 deficiency on heterochromatin organization during neural differentiation, we developed a versatile model for stem cell in vitro differentiation. Therefore, we modified murine Mecp2 deficient (Mecp2−/y) embryonic stem cells to generate cells exhibiting green fluorescent protein expression upon neural differentiation. Subsequently, we quantitatively analyzed heterochromatin organization during neural differentiation in wild type and in Mecp2 deficient cells. We found that MeCP2 protein levels increase significantly during neural differentiation and accumulate at constitutive heterochromatin. Statistical analysis of Mecp2 wild type neurons revealed a significant clustering of heterochromatin per nuclei with progressing differentiation. In contrast we found Mecp2 deficient neurons and astroglia cells to be significantly impaired in heterochromatin reorganization. Our results (i) introduce a new and manageable cellular model to study the molecular effects of Mecp2 deficiency, and (ii) support the view of MeCP2 as a central protein in heterochromatin architecture in maturating cells, possibly involved in stabilizing their differentiated state.
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