Nuclear pore complexes — a doorway to neural injury in neurodegeneration

核孔蛋白 核孔 神经退行性变 肌萎缩侧索硬化 神经科学 核运输 疾病 生物 医学 细胞生物学 病理 细胞核 核心
作者
Alyssa N. Coyne,Jeffrey D. Rothstein
出处
期刊:Nature Reviews Neurology [Nature Portfolio]
卷期号:18 (6): 348-362 被引量:93
标识
DOI:10.1038/s41582-022-00653-6
摘要

The genetic underpinnings and end-stage pathological hallmarks of neurodegenerative diseases are increasingly well defined, but the cellular pathophysiology of disease initiation and propagation remains poorly understood, especially in sporadic forms of these diseases. Altered nucleocytoplasmic transport is emerging as a prominent pathomechanism of multiple neurodegenerative diseases, including amyotrophic lateral sclerosis, Alzheimer disease, frontotemporal dementia and Huntington disease. The nuclear pore complex (NPC) and interactions between its individual nucleoporin components and nuclear transport receptors regulate nucleocytoplasmic transport, as well as genome organization and gene expression. Specific nucleoporin abnormalities have been identified in sporadic and familial forms of neurodegenerative disease, and these alterations are thought to contribute to disrupted nucleocytoplasmic transport. The specific nucleoporins and nucleocytoplasmic transport proteins that have been linked to different neurodegenerative diseases are partially distinct, suggesting that NPC injury contributes to the cellular specificity of neurodegenerative disease and could be an early initiator of the pathophysiological cascades that underlie neurodegenerative disease. This concept is consistent with the fact that rare genetic mutations in some nucleoporins cause cell-type-specific neurological disease. In this Review, we discuss nucleoporin and NPC disruptions and consider their impact on cellular function and the pathophysiology of neurodegenerative disease. In this Review, Coyne and Rothstein discuss disruptions to the nuclear pore complex and nucleocytoplasmic transport, which are emerging as pathological mechanisms in multiple neurodegenerative diseases, and consider the effects of these changes on cellular function and their potential for therapeutic targeting.
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