A Mutation in NPAS3 That Segregates with Schizophrenia in a Small Family Leads to Protein Aggregation

Molecular Neuropsychiatry Pub Date : 2016-07-27 DOI:10.1159/000447358

L. Nucifora, Yee‐Wen Candace Wu, Brian J. Lee, L. Sha, R. Margolis, C. Ross, A. Sawa, F. C. Nucifora Jr

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引用次数: 22

Abstract

Schizophrenia and other major mental illnesses result from a complex interplay of genetic and environmental factors. We previously identified a mutation in NPAS3 that results in a valine to isoleucine (V304I) amino acid substitution segregating with schizophrenia in a small family. The amino acid change occurs in a potentially critical region for protein function. Furthermore, the same amino acid substitution in proteins related to familial Alzheimer's disease and transthyretin amyloidosis has been associated with protein aggregation. In this study, we demonstrate that NPAS3 is prone to aggregation, and that the V304I mutation in NPAS3 increases this propensity in both bacterial and mammalian expression systems. We also show that NPAS3-V304I reduces soluble endogenous NPAS3, and increases insoluble endogenous NPAS3 and leads to alteration of transcriptional activity. These results suggest that protein aggregation, potentially leading to cell dysfunction via a loss of protein function through sequestration, may contribute to the pathogenesis of schizophrenia and other forms of mental illness. Further exploration of the mechanisms leading to abnormal protein quality control could lead to new therapeutic targets.

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在一个小家族中，NPAS3突变与精神分裂症分离导致蛋白质聚集

精神分裂症和其他主要精神疾病是遗传和环境因素复杂相互作用的结果。我们之前在一个小家庭中发现了NPAS3突变，该突变导致缬氨酸到异亮氨酸(V304I)氨基酸取代分离。氨基酸变化发生在蛋白质功能的潜在关键区域。此外，与家族性阿尔茨海默病和转甲状腺蛋白淀粉样变性相关的蛋白质中相同的氨基酸取代与蛋白质聚集有关。在这项研究中，我们证明了NPAS3易于聚集，并且在细菌和哺乳动物的表达系统中，NPAS3的V304I突变增加了这种倾向。我们还发现NPAS3- v304i降低了可溶性内源性NPAS3，增加了不溶性内源性NPAS3，并导致转录活性的改变。这些结果表明，蛋白质聚集，可能通过隔离导致蛋白质功能丧失而导致细胞功能障碍，可能有助于精神分裂症和其他形式的精神疾病的发病机制。进一步探索导致异常蛋白质量控制的机制可能会导致新的治疗靶点。

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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Molecular Neuropsychiatry

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