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神经丝轻链(NF-L)蛋白:从神经元细胞骨架的高度聚合结构成分到外周神经退行性疾病生物标志物

Neurofilament Light (NF-L) Chain Protein from a Highly Polymerized Structural Component of the Neuronal Cytoskeleton to a Neurodegenerative Disease Biomarker in the Periphery.

作者信息

Zhao Yuhai, Arceneaux Lisa, Culicchia Frank, Lukiw Walter J

机构信息

LSU Neuroscience Center, Louisiana State University Health Science Center, New Orleans LA 70112, USA.

Department of Cell Biology and Anatomy, LSU Health Science Center, New Orleans LA 70112, USA.

出版信息

HSOA J Alzheimers Neurodegener Dis. 2021;7(2). doi: 10.24966/AND-9608/100056. Epub 2021 Oct 13.

Abstract

Neurofilaments (NFs) are critical scaffolding components of the axoskeleton of healthy neurons interacting directly with multiple synaptic-phosphoproteins to support and coordinate neuronal cell shape, cytoarchitecture, synaptogenesis and neurotransmission. While neuronal presynaptic proteins such as synapsin-2 (SYN II) degrade rapidly via the ubiquitin-proteasome pathway, a considerably more stable neurofilament light (NF-L) chain protein turns over much more slowly, and in several neurological diseases is accompanied by a pathological shift from an intracellular neuronal cytoplasmic location into various biofluid compartments. NF-L has been found to be significantly elevated in peripheral biofluids in multiple neurodegenerative disorders, however it is not as widely appreciated that NF-L expression within neurons undergoing inflammatory neurodegeneration exhibit a significant down-regulation in these neuron-specific intermediate-filament components. Down-regulated NF-L in neurons correlates well with the observed axonal and neuronal atrophy, neurite deterioration and synaptic disorganization in tissues affected by Alzheimer's disease (AD) and other progressive, age-related neurological diseases. This Review paper: will briefly assess the remarkably high number of neurological disorders that exhibit NF-L depolymerization, liberation from neuron-specific compartments, mobilization and enrichment into pathological biofluids; will evaluate how NF-L exhibits compartmentalization effects in age-related neurological disorders; will review how the shift of NF-L compartmentalization from within the neuronal cytoskeleton into peripheral biofluids may be a diagnostic biomarker for neuronal-decline in all cause dementia most useful in distinguishing between closely related neurological disorders; and will review emerging evidence that deficits in plasma membrane barrier integrity, pathological transport and/or vesicle-mediated trafficking dysfunction of NF-L may contribute to neuronal decline, with specific reference to AD wherever possible.

摘要

神经丝(NFs)是健康神经元轴骨架的关键支架成分,直接与多种突触磷蛋白相互作用,以支持和协调神经元细胞形态、细胞结构、突触发生和神经传递。虽然像突触结合蛋白-2(SYN II)这样的神经元突触前蛋白会通过泛素-蛋白酶体途径迅速降解,但一种稳定性高得多的神经丝轻链(NF-L)蛋白周转要慢得多,并且在几种神经系统疾病中伴随着从细胞内神经元胞质位置向各种生物流体隔室的病理性转移。已发现NF-L在多种神经退行性疾病的外周生物流体中显著升高,然而,人们并未广泛认识到,在经历炎症性神经退行性变的神经元内,这些神经元特异性中间丝成分中的NF-L表达会显著下调。神经元中NF-L的下调与阿尔茨海默病(AD)和其他与年龄相关的进行性神经系统疾病所影响组织中观察到的轴突和神经元萎缩、神经突退化及突触紊乱密切相关。本综述文章:将简要评估大量表现出NF-L解聚、从神经元特异性隔室释放、转移并富集到病理性生物流体中的神经系统疾病;将评估NF-L在与年龄相关的神经系统疾病中如何表现出区室化效应;将综述NF-L区室化从神经元细胞骨架内向外周生物流体的转变如何可能成为所有原因痴呆中神经元衰退的诊断生物标志物,这在区分密切相关的神经系统疾病时最为有用;并将综述新出现的证据,即质膜屏障完整性缺陷、病理性运输和/或NF-L的囊泡介导运输功能障碍可能导致神经元衰退,并尽可能特别提及AD。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2852/8651065/bfa311ec5e01/nihms-1745562-f0001.jpg

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