Mutant VAPB: Culprit or Innocent Bystander of Amyotrophic Lateral Sclerosis?

Nica Borgese, Francesca Navone, Nobuyuki Nukina, Tomoyuki Yamanaka
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引用次数: 6

Abstract

Nearly twenty years ago a mutation in the VAPB gene, resulting in a proline to serine substitution (p.P56S), was identified as the cause of a rare, slowly progressing, familial form of the motor neuron degenerative disease Amyotrophic Lateral Sclerosis (ALS). Since then, progress in unravelling the mechanistic basis of this mutation has proceeded in parallel with research on the VAP proteins and on their role in establishing membrane contact sites between the ER and other organelles. Analysis of the literature on cellular and animal models reviewed here supports the conclusion that P56S-VAPB, which is aggregation-prone, non-functional and unstable, is expressed at levels that are insufficient to support toxic gain-of-function or dominant negative effects within motor neurons. Instead, insufficient levels of the product of the single wild-type allele appear to be required for pathological effects, and may be the main driver of the disease. In light of the multiple interactions of the VAP proteins, we address the consequences of specific VAPB depletion and highlight various affected processes that could contribute to motor neuron degeneration. In the future, distinction of specific roles of each of the two VAP paralogues should help to further elucidate the basis of p.P56S familial ALS, as well as of other more common forms of the disease.

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变异的VAPB:肌萎缩性侧索硬化症的罪魁祸首还是无辜的旁观者?
近20年前,VAPB基因的突变导致脯氨酸到丝氨酸的替代(p.P56S),被确定为一种罕见的、进展缓慢的家族性运动神经元退行性疾病肌萎缩性侧索硬化症(ALS)的原因。从那时起,揭示这种突变的机制基础的进展与对VAP蛋白及其在建立内质网和其他细胞器之间的膜接触位点中的作用的研究同步进行。本文回顾的细胞和动物模型文献分析支持P56S-VAPB易聚集、无功能和不稳定的结论,其表达水平不足以支持运动神经元内的毒性功能获得或显性负面作用。相反,单个野生型等位基因的产物水平不足似乎是病理作用所必需的,并且可能是该疾病的主要驱动因素。鉴于VAP蛋白的多种相互作用,我们解决了特定VAPB耗竭的后果,并强调了可能导致运动神经元退化的各种受影响的过程。在未来,区分这两种VAP亲缘物各自的具体作用应该有助于进一步阐明p.P56S家族性ALS以及其他更常见的疾病形式的基础。
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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