两种果蝇神经发育障碍模型的自发运动行为异常。

IF 1.8 4区 医学 Q3 GENETICS & HEREDITY Journal of neurogenetics Pub Date : 2021-03-01 Epub Date: 2020-11-09 DOI:10.1080/01677063.2020.1833005
David R Andrew, Mariah E Moe, Dailu Chen, Judith A Tello, Rachel L Doser, William E Conner, Jaswinder K Ghuman, Linda L Restifo
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引用次数: 3

摘要

数百个基因的突变导致神经发育障碍,伴有异常的运动行为和认知缺陷。患有脆性X染色体综合征(FXS)的男孩是导致智力残疾的主要单基因原因,他们经常表现出重复行为,这是自闭症的一个核心特征。通过直接观察和人工分析,我们对果蝇dfmr1突变体(FXS的建立模型)的自发运动行为表型进行了表征。我们在小范围内记录了个体1天大的成年果蝇,它们具有成熟的神经系统,在衰老开始之前。我们使用开源视频注释软件对行为进行评分,以生成连续的活动时间线,并以图形和定量的方式表示。年轻的dfmr1突变体花过多的时间梳理毛发,毛发数量和持续时间增加;均被转基因野生型dfmr1+拯救。通过两种梳理模式测量,dfmr1突变果蝇表现出与持久性一致的重复增加,这在FXS中很常见。此外,突变果蝇表现出对梳理身体后部结构的偏好,并且从一个部位到另一个部位的梳理速度增加。我们提出了一种可能性,即求爱和昼夜节律缺陷,之前报道的dfmr1突变体,由于过度梳理而变得复杂。我们还观察到CASK突变体显着增加了修饰,尽管他们的行走表型显着降低。突变果蝇是人类cask相关神经发育障碍的模型,在整个实验过程中表现出持续升高的梳理指数,但在放置在舞台后立即出现短暂的运动激活。基于已发表的fmrp靶转录物鉴定数据和导致人类遗传神经发育障碍的突变的功能分析,我们提出以下蛋白作为FXS过度重复行为的候选介质:CaMKIIα、NMDA受体亚基2A和2B、NLGN3和SHANK3。总之,这些果蝇突变表型和机制的见解为药物发现提供了起点,以确定减少功能失调的重复行为的化合物。
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Spontaneous motor-behavior abnormalities in two Drosophila models of neurodevelopmental disorders.

Mutations in hundreds of genes cause neurodevelopmental disorders with abnormal motor behavior alongside cognitive deficits. Boys with fragile X syndrome (FXS), a leading monogenic cause of intellectual disability, often display repetitive behaviors, a core feature of autism. By direct observation and manual analysis, we characterized spontaneous-motor-behavior phenotypes of Drosophila dfmr1 mutants, an established model for FXS. We recorded individual 1-day-old adult flies, with mature nervous systems and prior to the onset of aging, in small arenas. We scored behavior using open-source video-annotation software to generate continuous activity timelines, which were represented graphically and quantitatively. Young dfmr1 mutants spent excessive time grooming, with increased bout number and duration; both were rescued by transgenic wild-type dfmr1+. By two grooming-pattern measures, dfmr1-mutant flies showed elevated repetitions consistent with perseveration, which is common in FXS. In addition, the mutant flies display a preference for grooming posterior body structures, and an increased rate of grooming transitions from one site to another. We raise the possibility that courtship and circadian rhythm defects, previously reported for dfmr1 mutants, are complicated by excessive grooming. We also observed significantly increased grooming in CASK mutants, despite their dramatically decreased walking phenotype. The mutant flies, a model for human CASK-related neurodevelopmental disorders, displayed consistently elevated grooming indices throughout the assay, but transient locomotory activation immediately after placement in the arena. Based on published data identifying FMRP-target transcripts and functional analyses of mutations causing human genetic neurodevelopmental disorders, we propose the following proteins as candidate mediators of excessive repetitive behaviors in FXS: CaMKIIα, NMDA receptor subunits 2A and 2B, NLGN3, and SHANK3. Together, these fly-mutant phenotypes and mechanistic insights provide starting points for drug discovery to identify compounds that reduce dysfunctional repetitive behaviors.

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来源期刊
Journal of neurogenetics
Journal of neurogenetics 医学-神经科学
CiteScore
4.40
自引率
0.00%
发文量
13
审稿时长
>12 weeks
期刊介绍: The Journal is appropriate for papers on behavioral, biochemical, or cellular aspects of neural function, plasticity, aging or disease. In addition to analyses in the traditional genetic-model organisms, C. elegans, Drosophila, mouse and the zebrafish, the Journal encourages submission of neurogenetic investigations performed in organisms not easily amenable to experimental genetics. Such investigations might, for instance, describe behavioral differences deriving from genetic variation within a species, or report human disease studies that provide exceptional insights into biological mechanisms
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