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Vertebrate reproductive science and technology
RESEARCH ARTICLE

124. DNA METHYLATION IN THE 2-CELL MOUSE EMBRYO IS THE RESULT OF DNMT ACTIVITY DURING DEVELOPMENT FROM THE ZYGOTE TO THE 2-CELL STAGE

Y. Li A , H. D. Morgan A , L. Ganeshan A and C. O'Neill A
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Sydney Centre for Developmental and Regenerative Medicine, University of Sydney, Australia

Reproduction, Fertility and Development 21(9) 43-43 https://doi.org/10.1071/SRB09Abs124
Published: 26 August 2009

Abstract

In an accompanying abstract we show for the first time that global demethylation of both paternally- and maternally-derived genomes occurs prior to syngamy. It is commonly considered that new methylation of the genome does not commence until late in the preimplantation stage. Yet embryos during cleavage stage are known to show DNA methylation. This creates a paradox, if global demethylation occurs by the time of syngamy yet remethylation does not occur until the blastocysts stage, how can cleavage stage embryos possess methylated DNA. We examined this paradox. We examined DNA methylation in 2-cell embryos by confocal microscopy of anti-methylcytosine immunofluorescence and propidium iodide co-staining of whole mounts. We confirmed that DNA in late zygotes was substantially demethylated in both the male and female pronuclei. By the 2-cell stage, embryos collected direct from the oviduct showed high levels of cytosine methylation. We assessed whether this accumulation of cytosine methylation during the early 2-cell stage was a consequence of DNA methyltransferase (DNMT) activity. This was achieved by treating late stage zygotes with the DNMT inhibitor RG108 (5 μM) for the period of development spanning pronuclear stage 5 to early 2-cell stage. The embryos that developed in the presence of the DNA methyltransferase inhibitor showed significantly less methylcytosine staining than the embryos in the untreated culture conditions (P<0.001). Treatment of embryos during this period with RG108 significantly reduced their capacity to develop to normal blastocysts, indicating that this early DNA re-methylation reaction was important for the normal development of the embryo. Our results show for the first time that de novo methylation of the genome occurs as early as the 2-cell stage of development and that this is mediated by a RG108-sensitive DNMT activity. The results substantially change our understanding of epigenetic reprogramming in the early embryo.