Pitt-Hopkins 综合征模型和人类自闭症谱系障碍共享与髓鞘相关的转录组特征。

A myelin-related transcriptomic profile is shared by Pitt-Hopkins syndrome models and human autism spectrum disorder.

机构信息

Lieber Institute for Brain Development, Johns Hopkins Medical Campus, Baltimore, MD, USA.

Medical Scientist Training Program, University of Pittsburgh, Pittsburgh, PA, USA.

出版信息

Nat Neurosci. 2020 Mar;23(3):375-385. doi: 10.1038/s41593-019-0578-x. Epub 2020 Feb 3.

DOI:10.1038/s41593-019-0578-x

PMID:32015540

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7065955/

Abstract

Autism spectrum disorder (ASD) is genetically heterogeneous with convergent symptomatology, suggesting common dysregulated pathways. In this study, we analyzed brain transcriptional changes in five mouse models of Pitt-Hopkins syndrome (PTHS), a syndromic form of ASD caused by mutations in the TCF4 gene, but not the TCF7L2 gene. Analyses of differentially expressed genes (DEGs) highlighted oligodendrocyte (OL) dysregulation, which we confirmed in two additional mouse models of syndromic ASD (Pten and Mecp2). The PTHS mouse models showed cell-autonomous reductions in OL numbers and myelination, functionally confirming OL transcriptional signatures. We also integrated PTHS mouse model DEGs with human idiopathic ASD postmortem brain RNA-sequencing data and found significant enrichment of overlapping DEGs and common myelination-associated pathways. Notably, DEGs from syndromic ASD mouse models and reduced deconvoluted OL numbers distinguished human idiopathic ASD cases from controls across three postmortem brain data sets. These results implicate disruptions in OL biology as a cellular mechanism in ASD pathology.

摘要

自闭症谱系障碍（ASD）具有遗传异质性，其症状表现趋同，提示存在共同失调的通路。在这项研究中，我们分析了五种皮特-霍普金斯综合征（PTHS）小鼠模型的大脑转录变化，PTHS 是一种由 TCF4 基因突变引起的综合征形式的 ASD，但不是 TCF7L2 基因突变引起的。差异表达基因（DEGs）分析突出了少突胶质细胞（OL）的失调，我们在另外两种综合征形式的 ASD 小鼠模型（Pten 和 Mecp2）中也证实了这一点。PTHS 小鼠模型显示 OL 数量和髓鞘形成的自主减少，功能上证实了 OL 的转录特征。我们还将 PTHS 小鼠模型的 DEGs 与人类特发性 ASD 死后大脑 RNA 测序数据进行了整合，发现了重叠 DEGs 和常见髓鞘形成相关途径的显著富集。值得注意的是，来自综合征形式 ASD 小鼠模型的 DEGs 和减少的去卷积 OL 数量将三个死后大脑数据集的人类特发性 ASD 病例与对照组区分开来。这些结果表明 OL 生物学的破坏是 ASD 病理的一种细胞机制。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/44f1/7065955/47bc8c989900/nihms-1546836-f0009.jpg

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Pitt-Hopkins 综合征模型和人类自闭症谱系障碍共享与髓鞘相关的转录组特征。

A myelin-related transcriptomic profile is shared by Pitt-Hopkins syndrome models and human autism spectrum disorder.

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