Mutation in the mitochondrial chaperone TRAP1 leads to autism with more severe symptoms in males.

IF 9 1区 医学 Q1 MEDICINE, RESEARCH & EXPERIMENTAL
Małgorzata Rydzanicz,Bozena Kuzniewska,Marta Magnowska,Tomasz Wójtowicz,Aleksandra Stawikowska,Anna Hojka,Ewa Borsuk,Ksenia Meyza,Olga Gewartowska,Jakub Gruchota,Jacek Miłek,Patrycja Wardaszka,Izabela Chojnicka,Ludwika Kondrakiewicz,Dorota Dymkowska,Alicja Puścian,Ewelina Knapska,Andrzej Dziembowski,Rafał Płoski,Magdalena Dziembowska
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引用次数: 0

Abstract

There is increasing evidence of mitochondrial dysfunction in autism spectrum disorders (ASD), but the causal relationships are unclear. In an ASD patient whose identical twin was unaffected, we identified a postzygotic mosaic mutation p.Q639* in the TRAP1 gene, which encodes a mitochondrial chaperone of the HSP90 family. Additional screening of 176 unrelated ASD probands revealed an identical TRAP1 variant in a male patient who had inherited it from a healthy mother. Notably, newly generated knock-in Trap1 p.Q641* mice display ASD-related behavioral abnormalities that are more pronounced in males than in females. Accordingly, Trap1 p.Q641* mutation also resulted in sex-specific changes in synaptic plasticity, the number of presynaptic mitochondria, and mitochondrial respiration. Thus, the TRAP1 p.Q639* mutation is the first example of a monogenic ASD caused by impaired mitochondrial protein homeostasis.
线粒体伴侣TRAP1的突变导致自闭症,且男性症状更为严重。
越来越多的证据表明,自闭症谱系障碍(ASD)中存在线粒体功能障碍,但其中的因果关系尚不清楚。在一名同卵双胞胎未受影响的 ASD 患者身上,我们发现了 TRAP1 基因中的一个后染色体镶嵌突变 p.Q639*,该基因编码 HSP90 家族的线粒体伴侣蛋白。对176名无亲属关系的ASD疑似患者进行的额外筛查发现,一名男性患者的TRAP1基因变异与之完全相同,该患者的母亲是健康人。值得注意的是,新产生的基因敲入 Trap1 p.Q641* 小鼠表现出与 ASD 相关的行为异常,雄性小鼠比雌性小鼠更明显。相应地,Trap1 p.Q641*突变也导致了突触可塑性、突触前线粒体数量和线粒体呼吸的性别特异性变化。因此,TRAP1 p.Q639*突变是首个因线粒体蛋白平衡受损而导致单基因自闭症的实例。
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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来源期刊
EMBO Molecular Medicine
EMBO Molecular Medicine 医学-医学:研究与实验
CiteScore
17.70
自引率
0.90%
发文量
105
审稿时长
4-8 weeks
期刊介绍: EMBO Molecular Medicine is an open access journal in the field of experimental medicine, dedicated to science at the interface between clinical research and basic life sciences. In addition to human data, we welcome original studies performed in cells and/or animals provided they demonstrate human disease relevance. To enhance and better specify our commitment to precision medicine, we have expanded the scope of EMM and call for contributions in the following fields: Environmental health and medicine, in particular studies in the field of environmental medicine in its functional and mechanistic aspects (exposome studies, toxicology, biomarkers, modeling, and intervention). Clinical studies and case reports - Human clinical studies providing decisive clues how to control a given disease (epidemiological, pathophysiological, therapeutic, and vaccine studies). Case reports supporting hypothesis-driven research on the disease. Biomedical technologies - Studies that present innovative materials, tools, devices, and technologies with direct translational potential and applicability (imaging technologies, drug delivery systems, tissue engineering, and AI)
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