Journal
PLOS ONE
Volume 5, Issue 11, Pages -Publisher
PUBLIC LIBRARY SCIENCE
DOI: 10.1371/journal.pone.0015507
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Funding
- ANR (Agence Nationale por la Recherche) Genanimal [ANR-06-GANI-007-01]
- INRA (Institut National pour la Recherche Agronomique)
- ABIES doctoral school
- FRM (Fondation pour la Recherche Medicale)
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The unique properties of embryonic stem cells (ESC) rely on long-lasting self-renewal and their ability to switch in all adult cell type programs. Recent advances have shown that regulations at the chromatin level sustain both ESC properties along with transcription factors. We have focused our interest on the epigenetic modulator HP1 gamma (Heterochromatin Protein 1, isoform gamma) that binds histones H3 methylated at lysine 9 (meH3K9) and is highly plastic in its distribution and association with the transcriptional regulation of specific genes during cell fate transitions. These characteristics of HP1 gamma make it a good candidate to sustain the ESC flexibility required for rapid program changes during differentiation. Using RNA interference, we describe the functional role of HP1 gamma in mouse ESC. The analysis of HP1 gamma deprived cells in proliferative and in various differentiating conditions was performed combining functional assays with molecular approaches (RT-qPCR, microarray). We show that HP1 gamma deprivation slows down the cell cycle of ESC and decreases their resistance to differentiating conditions, rendering the cells poised to differentiate. In addition, HP1 gamma depletion hampers the differentiation to the endoderm as compared with the differentiation to the neurectoderm or the mesoderm. Altogether, our results reveal the role of HP1 gamma in ESC self-renewal and in the balance between the pluripotent and the differentiation programs.
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