Journal
NATURE
Volume 573, Issue 7773, Pages 271-+Publisher
NATURE RESEARCH
DOI: 10.1038/s41586-019-1536-1
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Funding
- Diabetes Research Center grant
- NIH [R01OD012204, R01GM123556, P30 DK063720]
- National Science Foundation Graduate Research Fellowship Program [1650113]
- Institut Universitaire de France
- National Institutes of Health (NIH) [R21ES023297, R01ES028212]
- Canada 150 Research Chair
- MRC [MC_UP_1605/4] Funding Source: UKRI
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Development is often assumed to be hardwired in the genome, but several lines of evidence indicate that it is susceptible to environmental modulation with potential long-term consequences, including in mammals(1,2). The embryonic germline is of particular interest because of the potential for intergenerational epigenetic effects. The mammalian germline undergoes extensive DNA demethylation(3-7) that occurs in large part by passive dilution of methylation over successive cell divisions, accompanied by active DNA demethylation by TET enzymes(3,8-10). TET activity has been shown to be modulated by nutrients and metabolites, such as vitamin C11-15. Here we show that maternal vitamin C is required for proper DNA demethylation and the development of female fetal germ cells in a mouse model. Maternal vitamin C deficiency does not affect overall embryonic development but leads to reduced numbers of germ cells, delayed meiosis and reduced fecundity in adult offspring. The transcriptome of germ cells from vitamin-C-deficient embryos is remarkably similar to that of embryos carrying a null mutation in Tet1. 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 partially recapitulates loss of TET1, and provide a potential intergenerational mechanism for adjusting fecundity to environmental conditions.
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