Maternal Vitamin C regulates DNA demethylation and devlopment of the mouse embryonic germline [Cut&Run]
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ABSTRACT: Maternal Vitamin C is required in vivo for proper DNA demethylation and development of fetal germ cells in a mouse model of Vitamin C deficiency. Withdrawal of Vitamin C from the maternal diet does not affect overall embryonic development but leads to defects in the fetal germline, which persist well after Vitamin C re-supply during late gestation. The transcriptome of germ cells from Vitamin C-deficient embryos is remarkably similar to that of embryos carrying a mutation in Tet1, which is responsible for DNA demethylation and activation of regulators of meiosis. In agreement with these results, Vitamin C deficiency leads to an aberrant DNA methylation profile that includes incomplete demethylation of key regulators of meiosis and transposable elements. These findings reveal that deficiency in Vitamin C during gestation recapitulates a mutation in Tet1 and disrupts germline reprogramming and development. Our work further indicate that the embryonic germline is sensitive to perturbations of the maternal diet, providing a potential intergenerational mechanism for adjusting fecundity to environmental quality.
ORGANISM(S): Mus musculus
PROVIDER: GSE125496 | GEO | 2019/07/01
REPOSITORIES: GEO
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