Investigation on the arrhythmogenecity of Nav1.5-TRPM4 channel complex

2023 Fiscal Year Annual Research Report

• Project/Area Number: 20K16126
• Research Institution: Fukuoka University
• Principal Investigator: 胡 耀鵬 福岡大学, 医学部, 助教 (40708476)
• Project Period (FY): 2020-04-01 – 2024-03-31
• Keywords: Arrhythmogenicity / TRPM4 / Nav1.5 / Conduction disturbances

Outline of Annual Research Achievements

According to the atomic structure of TRPM4 channel, the residue "Q854" is located on the S2-S3 intracellular helix, which is exposed to the cytoplasm, but distant from the pre-S1 helix and the TRP domain region. The S2-S3 helix forms a narrow cleft with the TRP domain, and Ca2+ may pass through the cleft into the hypothetical binding pocket. Thus structural changes due to Q854R mutation may greatly alter the size of the cleft, and potentially affect the Ca2+-mediated gating control. Accordingly, Q854R mutation may open more easily and close more slowly. These are consistent with the results of our experiments and simulations.
Furthermore, the heterogeneous conduction disturbances in our 2D simulation displays that in the vicinity of fibroblast-like cells with shallow membrane potentials, prolonged depolarization occurs due to the extended activating effect of the TRPM4 mutations. Consequently, the inactivation of Nav1.5 channels accumulates, leading to a decrease in local currents flowing from the excitation front to adjacent non-excitable areas. As stimulation is repeated, the "source" current (i.e., Na+ current) decreases. The extent of this impairment becomes more pronounced in regions where tissue homogeneity and isotropy are lost, resulting in various patterns of conduction disturbances.
Ex vivo experiments demonstrats that mechanical stimulation of endocardial Purkinje fibers could induce various types of arrhythmias,including conduction block and ventricular tachycardia. The mitigating effect of the TRPM4 blocker underscores the pivotal role of TRPM4 overactivation.

Research Products

• [Journal Article] Long-Term Tracking of the Effects of Colostrum-Derived Lacticaseibacillus rhamnosus Probio-M9 on Gut Microbiota in Mice with Colitis-Associated Tumorigenesis (2024)
  • Author(s): Zhao Feiyan、Hiraishi Keizo、Li Xiaodong、Hu Yaopeng、Kojima Daibo、Sun Zhihong、Zhang Heping、Kurahara Lin-Hai
  • Journal Title: Biomedicines Volume: 12 Pages: 531～531
  • DOI: 10.3390/biomedicines12030531
  • Peer Reviewed / Open Access / Int'l Joint Research
• [Journal Article] The Role of TRPM4 in Cardiac Electrophysiology and Arrhythmogenesis (2023)
  • Author(s): Hu Yaopeng、Cang Jiehui、Hiraishi Keizo、Fujita Takayuki、Inoue Ryuji
  • Journal Title: International Journal of Molecular Sciences Volume: 24 Pages: 11798～11798
  • DOI: 10.3390/ijms241411798
  • Peer Reviewed / Open Access / Int'l Joint Research
• [Presentation] TRPM4 チャネルによる不整脈誘発機構の統合的な検討 (2024)
  • Author(s): 胡 耀鵬、平石敬三、倉傑輝、李 欽、朱 欣、井上 隆司、藤田 孝之
  • Organizer: 第101回日本生理学会
• [Presentation] TRPM4チャネル変異体による不整脈誘発機構の検討：実験と数理モデルに基づいたアプローチ (2023)
  • Author(s): 胡 耀鵬、李 欽、沈揚華、藤田 孝之、朱 欣、井上 隆司
  • Organizer: 第13回トランスポーター研究会九州部会シンポジウム
• [Presentation] プルキンエ線維におけるTRPM4チャネルの機能亢進型変異による、不整脈誘発機構の解明 (2023)
  • Author(s): 胡 耀鵬、平石敬三、倉傑輝、李 欽、朱 欣、井上 隆司、藤田 孝之
  • Organizer: 第74回西日本生理学会