Maternal iron levels: an immense influence on sex determination in embryos
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Maternal iron levels: an immense influence on sex determination in embryos

11/06/2025 The University of Osaka
Researchers from The University of Osaka have revealed the crucial role that iron plays in sex determination of mammalian embryos

Osaka, Japan – Developmentally expressed genes play a fundamental role in the formation of a wide range of organs. The Y chromosome-located mammalian sex-determining gene Sry, required for the formation of testis, is activated only within a narrow time window during embryogenesis. However, the processes behind the activation of Sry remain uncertain.

Now, in a recent publication from Nature, a team from The University of Osaka has discovered that iron plays a crucial role in male mammalian sex development.

The Sry gene directs sexually undifferentiated gonads to differentiate into testes rather than ovaries. The Sry gene is initially inactive because of a modification added to DNA-wrapping proteins called histone methylation. In males, a protein called KDM3A is responsible for removing this histone methylation, allowing the Sry gene to become active.

“We already knew that KDM3A requires iron for its enzymatic activity,” says lead author, Naoki Okashita. “Therefore, we wanted to investigate the extent and nature of iron metabolism and histone demethylation in sex determination.”

The researchers established mice lacking Tfrc, a gene crucial for cellular iron incorporation. Loss of Tfrc prevented the removal of the histone methylation, leading to reduced Sry expression. When inspecting the genitals of these mice, it was found that some XY mice developed as female, despite being genetically male.

The team also established an organ culture system for gonadal cells in which they could manipulate the levels of available iron. This confirmed that iron deficiency reduces the activity of KDM3A and activation of Sry. Therefore, the reduced Sry suppression under iron-deficient conditions was caused by the failure of KDM3A to remove histone methylation.

Perhaps most significantly, they then showed that maternal iron deficiency – whether induced by diet or by pharmacological intervention – could lead to altered histone methylation of the Sry gene because of reduced KDM3A activity. Some population of XY offspring derived from iron-deficient pregnant females were shown to undergo male-to-female sex reversal, potentially due to the impaired Sry activation.

“Our findings indicate that iron deficiency leads to disorders of male development, at least in mice. Our study emphasizes the importance of maintaining maternal iron levels,” explains senior author, Makoto Tachibana.

It is known that in humans, Fanconi anemia and Diamond–Blackfan anemia are risk factors for disorders of development. Understanding how iron supports embryonic development underscores the importance of maternal iron intake for the healthy development of human embryos.

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The article, “Maternal iron deficiency causes male-to-female sex reversal in mouse embryos”, was published in Nature at DOI: https://doi.org/10.1038/s41586-025-09063-2.
https://resou.osaka-u.ac.jp/en
Title: Maternal iron deficiency causes male-to-female sex reversal in mouse embryos
Journal: Nature
Authors: Naoki Okashita, Ryo Maeda, Shunsuke Kuroki, Kyona Sasaki, Yoko Uno, Peter Koopman &Makoto Tachibana
DOI: 10.1038/s41586-025-09063-2
Funded by: Japan Society for the Promotion of Science
Ministry of Education, Culture, Sports, Science and Technology
Attached files
  • Fig. 1 Photograph of offspring born to iron chelator-treated mothers during pregnancy. Left, normally developed XY male animal; middle, intersex-phenotype XY animal; right; completely feminized XY animal., Original content, No restrictions., Makoto Tachibana
  • Fig. 2 The role of iron metabolism in mouse male sex determination: intracellular iron elevation drives H3K9 demethylation required for Sry activation., Original content, No restrictions., Makoto Tachibana
11/06/2025 The University of Osaka
Regions: Asia, Japan
Keywords: Health, Medical, Science, Life Sciences

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