丙戊酸诱导的自闭症大鼠模型中皮质颞叶加工能力的退化

Degraded cortical temporal processing in the valproic acid-induced rat model of autism.

作者信息

Cheng Yuan, Tang Binliang, Zhang Guimin, An Pengying, Sun Yutian, Gao Ming, Zhang Yifan, Shan Ye, Zhang Jiping, Liu Qiaoyun, Lai Cora Sau Wan, de Villers-Sidani Étienne, Wang Yunfeng, Zhou Xiaoming

机构信息

Key Laboratory of Brain Functional Genomics of Ministry of Education, Shanghai Key Laboratory of Brain Functional Genomics, School of Life Sciences, East China Normal University, Shanghai, 200062, China; New York University-East China Normal University (NYU-ECNU) Institute of Brain and Cognitive Science, NYU-Shanghai, Shanghai, 200062, China.

出版信息

Neuropharmacology. 2022 May 15;209:109000. doi: 10.1016/j.neuropharm.2022.109000. Epub 2022 Feb 17.

DOI:10.1016/j.neuropharm.2022.109000

PMID:35182575

Abstract

Hearing disorders, such as abnormal speech perception, are frequently reported in individuals with autism. However, the mechanisms underlying these auditory-associated signature deficits in autism remain largely unknown. In this study, we documented significant behavioral impairments in the sound temporal rate discrimination task for rats prenatally exposed to valproic acid (VPA), a well-validated animal model for studying the pathology of autism. In parallel, there was a large-scale degradation in temporal information-processing in their primary auditory cortices (A1) at both levels of spiking outputs and synaptic inputs. Substantially increased spine density of excitatory neurons and decreased numbers of parvalbumin- and somatostatin-labeled inhibitory inter-neurons were also recorded in the A1 after VPA exposure. Given the fact that cortical temporal processing of sound is associated with speech perception in humans, these results in the animal model of VPA exposure provide insight into a possible neurological mechanism underlying auditory and language-related deficits in individuals with autism.

摘要

听力障碍，如言语感知异常，在自闭症患者中经常被报道。然而，自闭症中这些与听觉相关的标志性缺陷背后的机制在很大程度上仍然未知。在这项研究中，我们记录了产前暴露于丙戊酸（VPA）的大鼠在声音时间速率辨别任务中存在显著的行为障碍，VPA是一种用于研究自闭症病理学的经过充分验证的动物模型。与此同时，在其初级听觉皮层（A1）的尖峰输出和突触输入水平上，时间信息处理都出现了大规模退化。在暴露于VPA后的A1中，还记录到兴奋性神经元的棘突密度显著增加，以及小白蛋白和生长抑素标记的抑制性中间神经元数量减少。鉴于声音的皮层时间处理与人类的言语感知相关，这些在VPA暴露动物模型中的结果为自闭症患者听觉和语言相关缺陷的潜在神经机制提供了见解。

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丙戊酸诱导的自闭症大鼠模型中皮质颞叶加工能力的退化

Degraded cortical temporal processing in the valproic acid-induced rat model of autism.

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