Sculpting excitable membranes: voltage-gated ion channel delivery and distribution

IF 34.7 1区医学 Q1 Neuroscience

Nature Reviews Neuroscience Pub Date : 2025-04-02 DOI:10.1038/s41583-025-00917-2

Sidharth Tyagi, Grant P. Higerd-Rusli, Elizabeth J. Akin, Stephen G. Waxman, Sulayman D. Dib-Hajj

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Abstract

The polarized and domain-specific distribution of membrane ion channels is essential for neuronal homeostasis, but delivery of these proteins to distal neuronal compartments (such as the axonal ends of peripheral sensory neurons) presents a logistical challenge. Recent developments have enabled the real-time imaging of single protein trafficking and the investigation of the life cycle of ion channels across neuronal compartments. These studies have revealed a highly regulated process involving post-translational modifications, vesicular sorting, motor protein-driven transport and targeted membrane insertion. Emerging evidence suggests that neuronal activity and disease states can dynamically modulate ion channel localization, directly influencing excitability. This Review synthesizes current knowledge on the spatiotemporal regulation of ion channel trafficking in both central and peripheral nervous system neurons. Understanding these processes not only advances our fundamental knowledge of neuronal excitability, but also reveals potential therapeutic targets for disorders involving aberrant ion channel distribution, such as chronic pain and neurodegenerative diseases.

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雕刻可兴奋膜：电压门控离子通道的传递和分布

膜离子通道的极化和区域特异性分布对神经元稳态至关重要，但将这些蛋白质运送到远端神经元室（如外周感觉神经元的轴突末端）提出了一个物流挑战。最近的发展使单个蛋白质运输的实时成像和跨神经元室离子通道生命周期的调查成为可能。这些研究揭示了一个高度调控的过程，包括翻译后修饰、囊泡分选、运动蛋白驱动运输和靶向膜插入。新的证据表明，神经元活动和疾病状态可以动态调节离子通道定位，直接影响兴奋性。本文综述了目前关于中枢和周围神经系统神经元离子通道运输时空调控的研究进展。了解这些过程不仅提高了我们对神经元兴奋性的基本认识，而且还揭示了涉及异常离子通道分布的疾病的潜在治疗靶点，如慢性疼痛和神经退行性疾病。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Nature Reviews Neuroscience 医学-神经科学

CiteScore

35.00

自引率

0.60%

发文量

104

审稿时长

6-12 weeks

期刊介绍： Nature Reviews Neuroscience is a journal that is part of the Nature Reviews portfolio. It focuses on the multidisciplinary science of neuroscience, which aims to provide a complete understanding of the structure and function of the central nervous system. Advances in molecular, developmental, and cognitive neuroscience have made it possible to tackle longstanding neurobiological questions. However, the wealth of knowledge generated by these advancements has created a need for new tools to organize and communicate this information efficiently. Nature Reviews Neuroscience aims to fulfill this need by offering an authoritative, accessible, topical, and engaging resource for scientists interested in all aspects of neuroscience. The journal covers subjects such as cellular and molecular neuroscience, development of the nervous system, sensory and motor systems, behavior, regulatory systems, higher cognition and language, computational neuroscience, and disorders of the brain. Editorial decisions for the journal are made by a team of full-time professional editors who are PhD-level scientists.