ERC Team, NeuroMyoGene Insitute, INMG-PGNM, Inserm U1315, CNRS UMR5261, University of Lyon 1, Lyon, France.
ERC Team, NeuroMyoGene Insitute, INMG-PGNM, Inserm U1315, CNRS UMR5261, University of Lyon 1, Lyon, France.
Curr Opin Cell Biol. 2024 Apr;87:102326. doi: 10.1016/j.ceb.2024.102326. Epub 2024 Feb 23.
Neurofilaments (NFs) are abundant cytoskeletal proteins that emerge as a critical hub for cell signalling within neurons. As we start to uncover essential roles of NFs in regulating microtubule and organelle dynamics, nerve conduction and neurotransmission, novel discoveries are expected to arise in genetics, with NFs identified as causal genes for various neurodegenerative diseases. This review will discuss how the latest advances in fundamental and translational research illuminate our understanding of NF biology, particularly their assembly, organisation, transport and degradation. We will emphasise the notion that filaments are not one entity and that future challenges will be to apprehend their diverse composition and structural heterogeneity and to scrutinize how this regulates signalling, sustains neuronal physiology and drives pathophysiology in disease.
神经丝(NFs)是丰富的细胞骨架蛋白,是神经元内细胞信号的关键枢纽。随着我们开始揭示 NFs 在调节微管和细胞器动态、神经传导和神经递质传递中的重要作用,预计在遗传学方面会有新的发现,NFs 被确定为各种神经退行性疾病的因果基因。这篇综述将讨论基础和转化研究的最新进展如何阐明我们对 NF 生物学的理解,特别是它们的组装、组织、运输和降解。我们将强调这样一种观点,即纤维不是一个单一的实体,未来的挑战将是理解它们的不同组成和结构异质性,并研究这种异质性如何调节信号转导、维持神经元生理学以及在疾病中驱动病理生理学。
