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Sex difference in BAT thermogenesis depends on PGC-1α–mediated phospholipid synthesis in mice

Author

Listed:
  • Akira Takeuchi

    (Institute of Science Tokyo)

  • Kazutaka Tsujimoto

    (Institute of Science Tokyo)

  • Jun Aoki

    (Institute of Science Tokyo)

  • Kenji Ikeda

    (Institute of Science Tokyo)

  • Nozomu Kono

    (University of Tokyo)

  • Kuniyuki Kano

    (University of Tokyo)

  • Yoshihiro Niitsu

    (Institute of Science Tokyo)

  • Masato Horino

    (Institute of Science Tokyo)

  • Kazunari Hara

    (Institute of Science Tokyo)

  • Rei Okazaki

    (Institute of Science Tokyo)

  • Ryo Kaneda

    (Institute of Science Tokyo)

  • Masanori Murakami

    (Institute of Science Tokyo)

  • Kumiko Shiba

    (Institute of Science Tokyo
    Institute of Science Tokyo)

  • Chikara Komiya

    (Institute of Science Tokyo)

  • Junken Aoki

    (University of Tokyo)

  • Tetsuya Yamada

    (Institute of Science Tokyo)

Abstract

Brown adipose tissue (BAT), a thermogenic tissue that plays an important role in systemic energy expenditure, has histological and functional sex differences. BAT thermogenic activity is higher in female mice than in male mice. However, the molecular mechanism underlying this functional sex difference has not been fully elucidated. Herein, we demonstrate the role and mechanism of PGC-1α in this sex difference. Inducible adipocyte-specific PGC-1α knockout (KO) mice display mitochondrial morphological defects and decreased BAT thermogenesis only in females. Expression of carbohydrate response-element binding protein beta (Chrebpβ) and its downstream de novo lipogenesis (DNL)-related genes are both reduced only in female KO mice. BAT-specific knockdown of ChREBPβ displays decreased DNL-related gene expression and mitochondrial morphological defects followed by reduced BAT thermogenesis in female wild-type mice. Lipidomics reveals that, PGC-1α increases ether-linked phosphatidylethanolamine (PE) and cardiolipin(18:2)4 levels through Chrebpβ-dependent and -independent mechanisms in female BAT. Furthermore, PGC-1α enhances the sensitivity of female BAT estrogen signaling, thereby increasing Chrebpβ and its downstream DNL-related gene expression. These findings demonstrate that PGC-1α–mediated phospholipid synthesis plays a pivotal role in BAT thermogenesis in a sex-dependent manner.

Suggested Citation

  • Akira Takeuchi & Kazutaka Tsujimoto & Jun Aoki & Kenji Ikeda & Nozomu Kono & Kuniyuki Kano & Yoshihiro Niitsu & Masato Horino & Kazunari Hara & Rei Okazaki & Ryo Kaneda & Masanori Murakami & Kumiko Sh, 2025. "Sex difference in BAT thermogenesis depends on PGC-1α–mediated phospholipid synthesis in mice," Nature Communications, Nature, vol. 16(1), pages 1-16, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-61219-w
    DOI: 10.1038/s41467-025-61219-w
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    1. Evanna L. Mills & Kerry A. Pierce & Mark P. Jedrychowski & Ryan Garrity & Sally Winther & Sara Vidoni & Takeshi Yoneshiro & Jessica B. Spinelli & Gina Z. Lu & Lawrence Kazak & Alexander S. Banks & Mar, 2018. "Accumulation of succinate controls activation of adipose tissue thermogenesis," Nature, Nature, vol. 560(7716), pages 102-106, August.
    2. Ziheng Chen & I-Lin Ho & Melinda Soeung & Er-Yen Yen & Jintan Liu & Liang Yan & Johnathon L. Rose & Sanjana Srinivasan & Shan Jiang & Q. Edward Chang & Ningping Feng & Jason P. Gay & Qi Wang & Jing Wa, 2023. "Ether phospholipids are required for mitochondrial reactive oxygen species homeostasis," Nature Communications, Nature, vol. 14(1), pages 1-15, December.
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