Abstract
To produce live cloned mammals from adult somatic cells the nuclei of these cells must be first reprogrammed from a very restricted, cell lineage-specific gene expression profile to an embryo-like expression pattern, compatible with embryonic development. Although this has been achieved in a number of species the efficiency of cloning remains very low. Inadequate reprogramming of epigenetic marks in the donor cells correlated with aberrant embryonic gene expression profiles has been identified as a key cause of this inefficiency. Some of the most common epigenetic marks are chemical modifications of histones, the main structural proteins of chromatin. A range of different histone modifications, including acetylation and methylation, exists and can be attributed to either repression or activation of genes. One epigenetic mark which is known to be very stable and difficult to remove during reprogramming is the trimethylation of lysine 9 in histone H3 (H3K9Me3). To test the hypothesis that H3K9Me3 marks are a major stumbling block for successful cloning we are attempting to remove these marks by overexpression of the H3K9Me3 specific histone demethylase, jmjd2b, in donor cells, prior to their use for nuclear transfer. We have engineered mouse embryonic stem (ES) cells for the tet inducible expression of a fusion protein with a functional jmjd2b or non-functional mutant jmjd2b histone demethylase. Approximately 94% and 88% of the cells can be induced for the expression of functional and mutant jmjd2b-EGFP in the respective ES cell lines. Immunofluorescence analyses have shown that induction of functional jmjd2b-EGFP results in an approximately 50% reduction of H3K9Me3 levels compared to non-induced cells and induced mutant jmjd2b-EGFP cells. The comparison of the in-vitro embryo development following nuclear transfer with induced and non-induced donor cells show significantly better overall development to blastocysts and morulae from induced donor cells with reduced H3K9Me3 levels.
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