Sex differences during development in cortical temporal processing and event related potentials in wild-type and fragile X syndrome model mice.

IF 4.1 2区 医学 Q1 CLINICAL NEUROLOGY Journal of Neurodevelopmental Disorders Pub Date : 2024-05-08 DOI:10.1186/s11689-024-09539-8
Katilynne Croom, Jeffrey A Rumschlag, Michael A Erickson, Devin Binder, Khaleel A Razak
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Abstract

Background: Autism spectrum disorder (ASD) is currently diagnosed in approximately 1 in 44 children in the United States, based on a wide array of symptoms, including sensory dysfunction and abnormal language development. Boys are diagnosed ~ 3.8 times more frequently than girls. Auditory temporal processing is crucial for speech recognition and language development. Abnormal development of temporal processing may account for ASD language impairments. Sex differences in the development of temporal processing may underlie the differences in language outcomes in male and female children with ASD. To understand mechanisms of potential sex differences in temporal processing requires a preclinical model. However, there are no studies that have addressed sex differences in temporal processing across development in any animal model of ASD.

Methods: To fill this major gap, we compared the development of auditory temporal processing in male and female wildtype (WT) and Fmr1 knock-out (KO) mice, a model of Fragile X Syndrome (FXS), a leading genetic cause of ASD-associated behaviors. Using epidural screw electrodes, we recorded auditory event related potentials (ERP) and auditory temporal processing with a gap-in-noise auditory steady state response (ASSR) paradigm at young (postnatal (p)21 and p30) and adult (p60) ages from both auditory and frontal cortices of awake, freely moving mice.

Results: The results show that ERP amplitudes were enhanced in both sexes of Fmr1 KO mice across development compared to WT counterparts, with greater enhancement in adult female than adult male KO mice. Gap-ASSR deficits were seen in the frontal, but not auditory, cortex in early development (p21) in female KO mice. Unlike male KO mice, female KO mice show WT-like temporal processing at p30. There were no temporal processing deficits in the adult mice of both sexes.

Conclusions: These results show a sex difference in the developmental trajectories of temporal processing and hypersensitive responses in Fmr1 KO mice. Male KO mice show slower maturation of temporal processing than females. Female KO mice show stronger hypersensitive responses than males later in development. The differences in maturation rates of temporal processing and hypersensitive responses during various critical periods of development may lead to sex differences in language function, arousal and anxiety in FXS.

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野生型和脆性 X 综合征模型小鼠大脑皮层时间处理和事件相关电位发育过程中的性别差异。
背景:目前,美国每 44 名儿童中就有 1 名被诊断患有自闭症谱系障碍 (ASD),其症状多种多样,包括感官功能障碍和语言发育异常。男孩被诊断为自闭症的频率是女孩的 3.8 倍。听觉颞区处理对语言识别和语言发展至关重要。颞叶处理发育异常可能是导致 ASD 语言障碍的原因。颞叶处理发育过程中的性别差异可能是患有 ASD 的男女儿童在语言成果方面存在差异的原因。要了解时间处理过程中潜在的性别差异机制,需要一个临床前模型。然而,目前还没有任何研究涉及 ASD 动物模型在整个发育过程中时间处理的性别差异:为了填补这一重大空白,我们比较了雄性和雌性野生型(WT)小鼠和 Fmr1 基因敲除(KO)小鼠的听觉时间处理发育情况,后者是脆性 X 综合征(FXS)的模型,而脆性 X 综合征是 ASD 相关行为的主要遗传原因。我们使用硬膜外螺钉电极,通过噪声间隙听觉稳态反应(ASSR)范式,记录了清醒、自由活动的小鼠在幼年(出生后(p)21 和 p30)和成年(p60)时的听觉和额叶皮层的听觉事件相关电位(ERP)和听觉时间处理过程:结果表明,与 WT 小鼠相比,Fmr1 KO 小鼠的ERP 振幅在整个发育过程中都有所增强,其中成年雌性 KO 小鼠比成年雄性 KO 小鼠的增强幅度更大。在雌性KO小鼠的早期发育阶段(p21),额叶皮层(而非听觉皮层)出现了间隙-ASSR缺陷。与雄性 KO 小鼠不同,雌性 KO 小鼠在 p30 阶段表现出与 WT 小鼠类似的颞叶处理能力。成年雌雄小鼠均无颞叶处理缺陷:这些结果表明,Fmr1 KO 小鼠的时间处理和超敏反应的发育轨迹存在性别差异。雄性 KO 小鼠的时间处理成熟比雌性慢。雌性 KO 小鼠在发育后期比雄性表现出更强的超敏反应。在发育的各个关键时期,时间处理和超敏反应的成熟速度存在差异,这可能会导致FXS患者在语言功能、唤醒和焦虑方面存在性别差异。
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来源期刊
CiteScore
7.60
自引率
4.10%
发文量
58
审稿时长
>12 weeks
期刊介绍: Journal of Neurodevelopmental Disorders is an open access journal that integrates current, cutting-edge research across a number of disciplines, including neurobiology, genetics, cognitive neuroscience, psychiatry and psychology. The journal’s primary focus is on the pathogenesis of neurodevelopmental disorders including autism, fragile X syndrome, tuberous sclerosis, Turner Syndrome, 22q Deletion Syndrome, Prader-Willi and Angelman Syndrome, Williams syndrome, lysosomal storage diseases, dyslexia, specific language impairment and fetal alcohol syndrome. With the discovery of specific genes underlying neurodevelopmental syndromes, the emergence of powerful tools for studying neural circuitry, and the development of new approaches for exploring molecular mechanisms, interdisciplinary research on the pathogenesis of neurodevelopmental disorders is now increasingly common. Journal of Neurodevelopmental Disorders provides a unique venue for researchers interested in comparing and contrasting mechanisms and characteristics related to the pathogenesis of the full range of neurodevelopmental disorders, sharpening our understanding of the etiology and relevant phenotypes of each condition.
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