Analysis of synaptic transmission using zebrafish mutants

• Project/Area Number: 18K06882
• Research Category: Grant-in-Aid for Scientific Research (C)
• Allocation Type: Multi-year Fund
• Section: 一般
• Review Section: Basic Section 48020:Physiology-related
• Research Institution: Osaka Medical College
• Principal Investigator: ONO FUMIHITO 大阪医科大学, 医学部, 教授 (70743996)
• Project Period (FY): 2018-04-01 – 2021-03-31
• Project Status: Completed (Fiscal Year 2020)
• Budget Amount: ¥4,420,000 (Direct Cost: ¥3,400,000、Indirect Cost: ¥1,020,000); Fiscal Year 2020: ¥1,560,000 (Direct Cost: ¥1,200,000、Indirect Cost: ¥360,000); Fiscal Year 2019: ¥910,000 (Direct Cost: ¥700,000、Indirect Cost: ¥210,000); Fiscal Year 2018: ¥1,950,000 (Direct Cost: ¥1,500,000、Indirect Cost: ¥450,000)
• Keywords: シナプス / 筋肉 / ゼブラフィッシュ / シナプス小胞放出 / 神経筋接合部

Outline of Final Research Achievements

We use zebrafish as a model system to study synapses. The synapse we study is the neuromuscular junction (NMJ) between motor neuron axons and skeletal muscle cells, among others. Zebrafish offers a plethora of genetic mutants, some of which harbor mutations in the genes functioning in the synapse. In this project, we focused on one mutant whose NMJ lacks receptors for the neurotransmitter. We isolated genes that are increased or decreased in this mutant, and analyzed their functions. In the process, we established a mutant in which motor neurons innervate only slow muscles. Over development, this mutant switched its motor neuron connection and some of the slow muscles converted to fast muscles, making quick movements possible. We published the results in Science Advances.

Academic Significance and Societal Importance of the Research Achievements

人間においても運動は魚類と同様のメカニズムで起こるが、近年人口の高齢化につれて健康のための運動の重要性が強調されている。速筋と遅筋は加齢や低重力、長期臥床など様々な条件によってその比率が変わることが報告されており、今回我々が研究成果に基づいて報告した、運動神経の繋ぎかえによる遅筋から速筋への転換は、さらにそのメカニズムの解明を進めることにより、純粋に神経科学の進歩だけでなく、上記の社会的な問題の解決にも寄与することが期待される。

Research Products

• [Journal Article] Synaptic Silencing of Fast Muscle Is Compensated by Rewired Innervation of Slow Muscle (2020)
  • Author(s): Buntaro Zempo , Yasuhiro Yamamoto , Tory Williams , Fumihito Ono
  • Journal Title: Science Advances Volume: 6 Issue: 15 Pages: 1-12
  • DOI: 10.1126/sciadv.aax8382
  • Peer Reviewed / Open Access / Int'l Joint Research
• [Journal Article] Gastrointestinal Neurons Expressing HCN4 Regulate Retrograde Peristalsis (2020)
  • Author(s): Fujii Kensuke、Nakajo Koichi、Egashira Yoshihiro、Yamamoto Yasuhiro、Kitada Kazuya、Taniguchi Kohei、Kawai Masaru、Tomiyama Hideki、Kawakami Koichi、Uchiyama Kazuhisa、Ono Fumihito
  • Journal Title: Cell Reports Volume: 30 Issue: 9 Pages: 2879-2888
  • DOI: 10.1016/j.celrep.2020.02.024
  • Peer Reviewed / Open Access
• [Presentation] 運動機能のコントロール：ゼブラフィッシュ骨格筋と消化管での新知見 (2021)
  • Author(s): 小野富三人
  • Organizer: 生理研シンポジウム
  • Invited
• [Presentation] Synaptic silencing of fast muscle is compensated by rewired innervation of slow muscle (2020)
  • Author(s): Fumihito Ono
  • Organizer: 11th European Zebrafish Meeting
  • Int'l Joint Research
• [Presentation] 消化管神経叢で逆蠕動を制御するHCNチャンネル (2020)
  • Author(s): 小野富三人
  • Organizer: イオンチャネルと生体膜のダイナミクス：構造生物学の先にあるもの
  • Invited
• [Presentation] 速筋シナプスの機能喪失から示唆された遅筋による速筋機能の補償 (2020)
  • Author(s): Buntaro Zempo , Yasuhiro Yamamoto , Tory Williams , Fumihito Ono
  • Organizer: 日本生理学会
  • Int'l Joint Research
• [Remarks] 遅筋だけが神経の入力を受ける動物を世界で初めて作成。
  • URL: https://www.osaka-med.ac.jp/news/research/f2pjgc000000f8ms.html