PLoS ONE (Jan 2013)

Peg3 mutational effects on reproduction and placenta-specific gene families.

  • Joomyeong Kim,
  • Wesley D Frey,
  • Hongzhi He,
  • Hana Kim,
  • Muhammad B Ekram,
  • Arundhati Bakshi,
  • Mohammad Faisal,
  • Bambarendage P U Perera,
  • An Ye,
  • Ryoichi Teruyama

DOI
https://doi.org/10.1371/journal.pone.0083359
Journal volume & issue
Vol. 8, no. 12
p. e83359

Abstract

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Peg3 (paternally expressed gene 3) is an imprinted gene encoding a DNA-binding protein. This gene plays important roles in controlling fetal growth rates and nurturing behaviors. In the current study, a new mutant mouse model has been generated to further characterize the functions of this DNA-binding protein. Besides known phenotypes, this new mutant model also revealed potential roles of Peg3 in mammalian reproduction. Female heterozygotes produce a much smaller number of mature oocytes than the wild-type littermates, resulting in reduced litter sizes. According to genome-wide expression analyses, several placenta-specific gene families are de-repressed in the brain of Peg3 heterozygous embryos, including prolactin, cathepsin and carcinoembryonic antigen cell adhesion molecule (Ceacam) families. The observed de-repression is more pronounced in females than in males. The de-repression of several members of these gene families is observed even in the adult brain, suggesting potential defects in epigenetic setting of the placenta-specific gene families in the Peg3 mutants. Overall, these results indicate that Peg3 likely controls the transcription of several placenta-specific gene families, and further suggest that this predicted transcriptional control by Peg3 might be mediated through unknown epigenetic mechanisms.