精神分裂症中 CPEB4 的致病性剪接错误。
Pathogenic Mis-splicing of CPEB4 in Schizophrenia.
机构信息
Center for Molecular Biology "Severo Ochoa," Spanish National Research Council/Autonomous University of Madrid, Madrid, Spain; Networking Research Center on Neurodegenerative Diseases (Centro de Investigación Biomédica en Red|Enfermedades Neurodegenerativas), Instituto de Salud Carlos III, Madrid, Spain.
Medical Research Council Centre for Neuropsychiatric Genetics and Genomics, Division of Psychological Medicine and Clinical Neurosciences, School of Medicine, Cardiff University, Cardiff, UK.
出版信息
Biol Psychiatry. 2023 Aug 15;94(4):341-351. doi: 10.1016/j.biopsych.2023.03.010. Epub 2023 Mar 22.
BACKGROUND
Schizophrenia (SCZ) is caused by an interplay of polygenic risk and environmental factors, which may alter regulators of gene expression leading to pathogenic misexpression of SCZ risk genes. The CPEB family of RNA-binding proteins (CPEB1-4) regulates translation of target RNAs (approximately 40% of overall genes). We previously identified CPEB4 as a key dysregulated translational regulator in autism spectrum disorder (ASD) because its neuronal-specific microexon (exon 4) is mis-spliced in ASD brains, causing underexpression of numerous ASD risk genes. The genetic factors and pathogenic mechanisms shared between SCZ and ASD led us to hypothesize CPEB4 mis-splicing in SCZ leading to underexpression of multiple SCZ-related genes.
METHODS
We performed MAGMA-enrichment analysis on Psychiatric Genomics Consortium genome-wide association study data and analyzed RNA sequencing data from the PsychENCODE Consortium. Reverse transcriptase polymerase chain reaction and Western blot were performed on postmortem brain tissue, and the presence/absence of antipsychotics was assessed through toxicological analysis. Finally, mice with mild overexpression of exon 4-lacking CPEB4 (CPEB4Δ4) were generated and analyzed biochemically and behaviorally.
RESULTS
First, we found enrichment of SCZ-associated genes for CPEB4-binder transcripts. We also found decreased usage of CPEB4 microexon in SCZ probands, which was correlated with decreased protein levels of CPEB4-target SCZ-associated genes only in antipsychotic-free individuals. Interestingly, differentially expressed genes fit those reported for SCZ, specifically in the SCZ probands with decreased CPEB4-microexon inclusion. Finally, we demonstrated that mice with mild overexpression of CPEB4Δ4 showed decreased protein levels of CPEB4-target SCZ genes and SCZ-linked behaviors.
CONCLUSIONS
We identified aberrant CPEB4 splicing and downstream misexpression of SCZ risk genes as a novel etiological mechanism in SCZ.
背景
精神分裂症(SCZ)是由多基因风险和环境因素相互作用引起的,这些因素可能会改变基因表达的调节剂,导致 SCZ 风险基因的病理性表达错误。CPEB 家族的 RNA 结合蛋白(CPEB1-4)调节靶 RNA 的翻译(约占总基因的 40%)。我们之前发现 CPEB4 是自闭症谱系障碍(ASD)中关键失调的翻译调节因子,因为其神经元特异性的微外显子(外显子 4)在 ASD 大脑中发生错误剪接,导致许多 ASD 风险基因表达不足。SCZ 和 ASD 之间共享的遗传因素和发病机制促使我们假设 CPEB4 剪接错误导致多个 SCZ 相关基因表达不足。
方法
我们对精神疾病基因组学联盟全基因组关联研究数据进行了 MAGMA 富集分析,并对精神疾病基因组学联盟的 PsychENCODE 联盟的 RNA 测序数据进行了分析。对死后脑组织进行逆转录酶聚合酶链反应和 Western blot 分析,并通过毒理学分析评估抗精神病药物的存在/缺失情况。最后,生成并分析了轻度表达缺失外显子 4 的 CPEB4(CPEB4Δ4)的小鼠的生物化学和行为。
结果
首先,我们发现 CPEB4 结合物转录本与 SCZ 相关基因富集。我们还发现 SCZ 患者的 CPEB4 微外显子使用率降低,这与仅在未使用抗精神病药物的个体中 CPEB4 靶标 SCZ 相关基因的蛋白水平降低相关。有趣的是,差异表达的基因与报告的 SCZ 相符,特别是在 CPEB4 微外显子包含减少的 SCZ 患者中。最后,我们证明轻度过表达 CPEB4Δ4 的小鼠表现出 CPEB4 靶标 SCZ 基因的蛋白水平降低和与 SCZ 相关的行为。
结论
我们确定了异常的 CPEB4 剪接和 SCZ 风险基因的下游表达错误作为 SCZ 的一种新的病因机制。
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