Molecular basis for regulation of feeding and food-entrained rhythms via brain-bone marrow network

• Project/Area Number: 15K15040
• Research Category: Grant-in-Aid for Challenging Exploratory Research
• Allocation Type: Multi-year Fund
• Research Field: Environmental physiology(including physical medicine and nutritional physiology)
• Research Institution: Nagoya University (2016-2017); Kinki University (2015)
• Principal Investigator: Hayasaka Naoto 名古屋大学, 環境医学研究所, 特任准教授 (80368290)
• Project Period (FY): 2015-04-01 – 2018-03-31
• Project Status: Completed (Fiscal Year 2017)
• Budget Amount: ¥3,770,000 (Direct Cost: ¥2,900,000、Indirect Cost: ¥870,000); Fiscal Year 2016: ¥1,560,000 (Direct Cost: ¥1,200,000、Indirect Cost: ¥360,000); Fiscal Year 2015: ¥2,210,000 (Direct Cost: ¥1,700,000、Indirect Cost: ¥510,000)
• Keywords: 骨髄 / 摂食リズム / 制限給餌 / 概日リズム / 食餌同調時計 / ミクログリア / 視床下部 / 絶食 / 制限給餌性リズム / 食餌時計

Outline of Final Research Achievements

In this study, we found a significant change in the expression of clock genes in the bone marrow and hypothalamus under restricted feeding and fasting. In parallel, it was also indicated that changes in the phase of clock gene expression were observed under restricted feeding. In the case of myeloablative destruction, abnormality of restricted feeding rhythm, that is, a significant reduction in feeding action (FAA) was observed under fasting. Furthermore, when we examined KO mice in which a gene with elevated expression under fasting is ablated, we observed a significant decrease in FAA. Collectively, our data suggest that food-entrainable oscillator (FEO) may constitute a network including bone marrow and hypothalamus. It was also suggested that a certain signaling from the bone marrow to the brain is involved in FAA induction under the control of FEO. Overall, our study suggest a novel mechanism in which not only brain but other regions play a role in the regulation of behavior.

Research Products

• [Journal Article] Salt-inducible kinase 3 regulates the mammalian circadian clock by destabilizing PER2 protein (2017)
  • Author(s): Naoto Hayasaka, Arisa Hirano, Yuka Miyoshi, Isao T. Tokuda, Hikari Yoshitane, Junichiro Matsuda, Yoshitaka Fukada
  • Journal Title: eLife Volume: 6
  • DOI: 10.7554/elife.24779
  • Peer Reviewed / Open Access
• [Presentation] リン酸化酵素SIK3を介した概日リズム、睡眠、そして代謝の制御 (2018)
  • Author(s): 早坂 直人
  • Organizer: 第95回日本生理学会大会
  • Invited
• [Presentation] 代謝・睡眠・概日リズムを共に制御するリン酸化シグナル (2017)
  • Author(s): 早坂 直人
  • Organizer: 第3回群馬大学生体調節研究所内分泌代謝シンポジウム
  • Invited
• [Presentation] A new understanding of the mammalian circadian clock as neuroglial networks (2015)
  • Author(s): Naoto Hayasaka
  • Organizer: XIV European Biological Rhythms Society Congress
  • Place of Presentation: マンチェスター大学（イギリス）
  • Year and Date: 2015-08-02
  • Int'l Joint Research / Invited
• [Presentation] Glia makes the clock tick: a role for astrocytes in the circadian rhythm regulation (2015)
  • Author(s): Naoto Hayasaka
  • Organizer: Neuro2015
  • Place of Presentation: 神戸国際会議場（神戸市）
  • Year and Date: 2015-07-28
• [Presentation] Involvement of astrocytes in the circadian clock machinery (2015)
  • Author(s): Naoto Hayasaka
  • Organizer: Gordon Research Conference Chronobiology
  • Place of Presentation: PGA Catalunya Business and Convention Centre Girona (スペイン)
  • Year and Date: 2015-06-28
  • Int'l Joint Research / Invited