Genomic imprinting is a developmental mechanism that mediates parent-of-origin-specific expression in a subset of genes. How the tissue specificity of imprinted gene expression is controlled remains poorly understood. As a model to address this question, we studied Grb10, a gene that displays brain-specific expression from the paternal chromosome. Here, we show in the mouse that the paternal promoter region is marked by allelic bivalent chromatin enriched in both H3K4me2 and H3K27me3, from early embryonic stages onwards. This is maintained in all somatic tissues, but brain. The bivalent domain is resolved upon neural commitment, during the developmental window in which paternal expression is activated. Our data indicate that bivalent chromatin, in combination with neuronal factors, controls the paternal expression of Grb10 in brain. This finding highlights a novel mechanism to control tissue-specific imprinting.
A mono-allelic bivalent chromatin domain controls tissue-specific imprinting at Grb10
Sanz, L. A.; Chamberlain, S.; Sabourin, J. C.; Henckel, A.; Magnuson, T.; Hugnot, J. P.; Feil*, R.; Arnaud*, P.
2008-10-08 / vol 27 / pages 2523-32
IGMM team(s) involved in this publication
Empreinte Génomique et Développement
Female; Animals; Cells, Cultured; Mice; Mice, Knockout; Male; *Genomic Imprinting; CpG Islands; *Alleles; *GRB10 Adaptor Protein/genetics/metabolism; Brain/cytology/embryology/physiology; Cell Differentiation; Chromatin/genetics/*metabolism; Embryo, Mammalian/anatomy & histology/physiology; Histones/genetics/metabolism; Mice, Inbred C57BL; Neurons/cytology/physiology; Promoter Regions (Genetics); Repressor Proteins/genetics/metabolism; Stem Cells/physiology