Frontiers in Cell and Developmental Biology (Mar 2024)

Effects of the prenatal and postnatal nurturing environment on the phenotype and gut microbiota of mice with polycystic ovary syndrome induced by prenatal androgen exposure: a cross-fostering study

  • Akari Kusamoto,
  • Miyuki Harada,
  • Ayaka Minemura,
  • Asami Matsumoto,
  • Kentaro Oka,
  • Motomichi Takahashi,
  • Nanoka Sakaguchi,
  • Jerilee M. K. Azhary,
  • Jerilee M. K. Azhary,
  • Hiroshi Koike,
  • Zixin Xu,
  • Tsurugi Tanaka,
  • Yoko Urata,
  • Chisato Kunitomi,
  • Nozomi Takahashi,
  • Osamu Wada-Hiraike,
  • Yasushi Hirota,
  • Yutaka Osuga

DOI
https://doi.org/10.3389/fcell.2024.1365624
Journal volume & issue
Vol. 12

Abstract

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The gut microbiome is implicated in the pathogenesis of polycystic ovary syndrome (PCOS), and prenatal androgen exposure is involved in the development of PCOS in later life. Our previous study of a mouse model of PCOS induced by prenatal dihydrotestosterone (DHT) exposure showed that the reproductive phenotype of PCOS appears from puberty, followed by the appearance of the metabolic phenotype after young adulthood, while changes in the gut microbiota was already apparent before puberty. To determine whether the prenatal or postnatal nurturing environment primarily contributes to these changes that characterize prenatally androgenized (PNA) offspring, we used a cross-fostering model to evaluate the effects of changes in the postnatal early-life environment of PNA offspring on the development of PCOS-like phenotypes and alterations in the gut microbiota in later life. Female PNA offspring fostered by normal dams (exposed to an abnormal prenatal environment only, fostered PNA) exhibited less marked PCOS-like phenotypes than PNA offspring, especially with respect to the metabolic phenotype. The gut microbiota of the fostered PNA offspring was similar to that of controls before adolescence, but differences between the fostered PNA and control groups became apparent after young adulthood. In conclusion, both prenatal androgen exposure and the postnatal early-life environment created by the DHT injection of mothers contribute to the development of PCOS-like phenotypes and the alterations in the gut microbiota that characterize PNA offspring. Thus, both the pre- and postnatal environments represent targets for the prevention of PCOS and the associated alteration in the gut microbiota in later life.

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