Aneuploidy is Linked to Neurological Phenotypes Through Oxidative Stress

IF 2.8 4区 医学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY
Anowarul Islam, Zeeshan Shaukat, Rashid Hussain, Michael G. Ricos, Leanne M. Dibbens, Stephen L. Gregory
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Abstract

Aneuploidy, having an aberrant genome, is gaining increasing attention in neurodegenerative diseases. It gives rise to proteotoxic stress as well as a stereotypical oxidative shift which makes these cells sensitive to internal and environmental stresses. A growing body of research from numerous laboratories suggests that many neurodegenerative disorders, especially Alzheimer’s disease and frontotemporal dementia, are characterised by neuronal aneuploidy and the ensuing apoptosis, which may contribute to neuronal loss. Using Drosophila as a model, we investigated the effect of induced aneuploidy in GABAergic neurons. We found an increased proportion of aneuploidy due to Mad2 depletion in the third-instar larval brain and increased cell death. Depletion of Mad2 in GABAergic neurons also gave a defective climbing and seizure phenotype. Feeding animals an antioxidant rescued the climbing and seizure phenotype. These findings suggest that increased aneuploidy leads to higher oxidative stress in GABAergic neurons which causes cell death, climbing defects, and seizure phenotype. Antioxidant feeding represents a potential therapy to reduce the aneuploidy-driven neurological phenotype.

Abstract Image

非整倍体通过氧化应激与神经系统表型有关
在神经退行性疾病中,基因组异常的非整倍体正日益受到关注。非整倍体会导致蛋白毒性应激以及刻板的氧化转变,从而使这些细胞对内部和环境应激非常敏感。越来越多实验室的研究表明,许多神经退行性疾病,尤其是阿尔茨海默病和额颞叶痴呆症,都以神经元非整倍体和随之而来的细胞凋亡为特征,这可能会导致神经元丧失。我们以果蝇为模型,研究了诱导非整倍体对 GABA 能神经元的影响。我们发现,在三龄幼虫大脑中,由于Mad2耗竭,非整倍体比例增加,细胞死亡增加。在GABA能神经元中耗尽Mad2也会导致爬行和癫痫表型缺陷。给动物喂食抗氧化剂可修复爬行和癫痫表型。这些发现表明,非整倍体增加会导致 GABA 能神经元氧化应激增加,从而导致细胞死亡、爬行缺陷和癫痫发作表型。喂食抗氧化剂是减少非整倍体驱动的神经表型的一种潜在疗法。
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来源期刊
Journal of Molecular Neuroscience
Journal of Molecular Neuroscience 医学-神经科学
CiteScore
6.60
自引率
3.20%
发文量
142
审稿时长
1 months
期刊介绍: The Journal of Molecular Neuroscience is committed to the rapid publication of original findings that increase our understanding of the molecular structure, function, and development of the nervous system. The criteria for acceptance of manuscripts will be scientific excellence, originality, and relevance to the field of molecular neuroscience. Manuscripts with clinical relevance are especially encouraged since the journal seeks to provide a means for accelerating the progression of basic research findings toward clinical utilization. All experiments described in the Journal of Molecular Neuroscience that involve the use of animal or human subjects must have been approved by the appropriate institutional review committee and conform to accepted ethical standards.
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