Cell-type-specific effects of autism-associated 15q duplication syndrome in the human brain.

IF 8.1 1区 生物学 Q1 GENETICS & HEREDITY American journal of human genetics Pub Date : 2024-08-08 Epub Date: 2024-07-29 DOI:10.1016/j.ajhg.2024.07.002
Caroline Dias, Alisa Mo, Chunhui Cai, Liang Sun, Kristen Cabral, Catherine A Brownstein, Shira Rockowitz, Christopher A Walsh
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Abstract

Recurrent copy-number variation represents one of the most well-established genetic drivers in neurodevelopmental disorders, including autism spectrum disorder. Duplication of 15q11-q13 (dup15q) is a well-described neurodevelopmental syndrome that increases the risk of autism more than 40-fold. However, the effects of this duplication on gene expression and chromatin accessibility in specific cell types in the human brain remain unknown. To identify the cell-type-specific transcriptional and epigenetic effects of dup15q in the human frontal cortex, we conducted single-nucleus RNA sequencing and multi-omic sequencing on dup15q-affected individuals (n = 6) as well as individuals with non-dup15q autism (n = 7) and neurotypical control individuals (n = 7). Cell-type-specific differential expression analysis identified significantly regulated genes, critical biological pathways, and differentially accessible genomic regions. Although there was overall increased gene expression across the duplicated genomic region, cellular identity represented an important factor mediating gene-expression changes. As compared to other cell types, neuronal subtypes showed greater upregulation of gene expression across a critical region within the duplication. Genes that fell within the duplicated region and had high baseline expression in control individuals showed only modest changes in dup15q, regardless of cell type. Of note, dup15q and autism had largely distinct signatures of chromatin accessibility but shared the majority of transcriptional regulatory motifs, suggesting convergent biological pathways. However, the transcriptional binding-factor motifs implicated in each condition implicated distinct biological mechanisms: neuronal JUN and FOS networks in autism vs. an inflammatory transcriptional network in dup15q microglia. This work provides a cell-type-specific analysis of how dup15q changes gene expression and chromatin accessibility in the human brain, and it finds evidence of marked cell-type-specific effects of this genetic driver. These findings have implications for guiding therapeutic development in dup15q syndrome, as well as understanding the functional effects of copy-number variants more broadly in neurodevelopmental disorders.

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自闭症相关 15q 重复综合征对人脑细胞类型的特异性影响
复发性拷贝数变异是神经发育障碍(包括自闭症谱系障碍)中最行之有效的遗传驱动因素之一。15q11-q13 重复(dup15q)是一种描述详尽的神经发育综合征,可使自闭症风险增加 40 倍以上。然而,这种重复对人脑中特定细胞类型的基因表达和染色质可及性的影响仍然未知。为了确定 dup15q 对人类额叶皮层细胞特异性转录和表观遗传的影响,我们对受 dup15q 影响的个体(n = 6)、非 dup15q 自闭症个体(n = 7)和神经畸形对照个体(n = 7)进行了单核 RNA 测序和多组测序。细胞类型特异性差异表达分析确定了受显著调控的基因、关键生物通路和差异可及的基因组区域。虽然整个重复基因组区域的基因表达总体上有所增加,但细胞特性是介导基因表达变化的一个重要因素。与其他细胞类型相比,神经元亚型在重复的关键区域内表现出更大的基因表达上调。属于重复区域且在对照个体中基线表达量较高的基因,在 dup15q 中仅出现适度变化,与细胞类型无关。值得注意的是,dup15q 和自闭症在染色质可及性方面有很大程度上的不同,但却共享大部分转录调控基序,这表明两者的生物学途径是趋同的。然而,每种情况下涉及的转录结合因子基序都牵涉到不同的生物机制:自闭症中的神经元 JUN 和 FOS 网络与 dup15q 小胶质细胞中的炎症转录网络。这项研究对 dup15q 如何改变人脑中的基因表达和染色质可及性进行了细胞类型特异性分析,并发现了这一遗传驱动因素对细胞类型产生明显特异性影响的证据。这些发现对指导 dup15q 综合征的治疗开发,以及更广泛地理解拷贝数变异在神经发育障碍中的功能效应具有重要意义。
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来源期刊
CiteScore
14.70
自引率
4.10%
发文量
185
审稿时长
1 months
期刊介绍: The American Journal of Human Genetics (AJHG) is a monthly journal published by Cell Press, chosen by The American Society of Human Genetics (ASHG) as its premier publication starting from January 2008. AJHG represents Cell Press's first society-owned journal, and both ASHG and Cell Press anticipate significant synergies between AJHG content and that of other Cell Press titles.
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