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Critical roles of nardilysin in the maintenance of body temperature homoeostasis

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  • Yoshinori Hiraoka

    (Graduate School of Medicine, Kyoto University
    Present address: Division of Clinical Pharmacy, Faculty of Pharmaceutical Sciences, Kobe Gakuin University, 1-1-3 Minatojima, Chuo-ku Kobe 650-8586, Japan)

  • Tatsuhiko Matsuoka

    (Graduate School of Medicine, Kyoto University)

  • Mikiko Ohno

    (Graduate School of Medicine, Kyoto University)

  • Kazuhiro Nakamura

    (Career-Path Promotion Unit for Young Life Scientists, Kyoto University)

  • Sayaka Saijo

    (Graduate School of Medicine, Kyoto University)

  • Shigenobu Matsumura

    (Laboratory of Nutrition Chemistry, Graduate School of Agriculture, Kyoto University)

  • Kiyoto Nishi

    (Graduate School of Medicine, Kyoto University)

  • Jiro Sakamoto

    (Graduate School of Medicine, Kyoto University)

  • Po-Min Chen

    (Graduate School of Medicine, Kyoto University)

  • Kazuo Inoue

    (Laboratory of Nutrition Chemistry, Graduate School of Agriculture, Kyoto University)

  • Tohru Fushiki

    (Laboratory of Nutrition Chemistry, Graduate School of Agriculture, Kyoto University)

  • Toru Kita

    (Kobe City Medical Center General Hospital)

  • Takeshi Kimura

    (Graduate School of Medicine, Kyoto University)

  • Eiichiro Nishi

    (Graduate School of Medicine, Kyoto University)

Abstract

Body temperature homoeostasis in mammals is governed centrally through the regulation of shivering and non-shivering thermogenesis and cutaneous vasomotion. Non-shivering thermogenesis in brown adipose tissue (BAT) is mediated by sympathetic activation, followed by PGC-1α induction, which drives UCP1. Here we identify nardilysin (Nrd1 and NRDc) as a critical regulator of body temperature homoeostasis. Nrd1−/− mice show increased energy expenditure owing to enhanced BAT thermogenesis and hyperactivity. Despite these findings, Nrd1−/− mice show hypothermia and cold intolerance that are attributed to the lowered set point of body temperature, poor insulation and impaired cold-induced thermogenesis. Induction of β3-adrenergic receptor, PGC-1α and UCP1 in response to cold is severely impaired in the absence of NRDc. At the molecular level, NRDc and PGC-1α interact and co-localize at the UCP1 enhancer, where NRDc represses PGC-1α activity. These findings reveal a novel nuclear function of NRDc and provide important insights into the mechanism of thermoregulation.

Suggested Citation

  • Yoshinori Hiraoka & Tatsuhiko Matsuoka & Mikiko Ohno & Kazuhiro Nakamura & Sayaka Saijo & Shigenobu Matsumura & Kiyoto Nishi & Jiro Sakamoto & Po-Min Chen & Kazuo Inoue & Tohru Fushiki & Toru Kita & T, 2014. "Critical roles of nardilysin in the maintenance of body temperature homoeostasis," Nature Communications, Nature, vol. 5(1), pages 1-11, May.
    • Handle: RePEc:nat:natcom:v:5:y:2014:i:1:d:10.1038_ncomms4224
    DOI: 10.1038/ncomms4224
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