Genetic Implication of Specific Glutamatergic Neurons of the Prefrontal Cortex in the Pathophysiology of Schizophrenia

IF 4 Q2 NEUROSCIENCES
Claire E. Tume , Sophie L. Chick , Peter A. Holmans , Elliott Rees , Michael C. O’Donovan , Darren Cameron , Nicholas J. Bray
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Abstract

Background

The prefrontal cortex (PFC) has been strongly implicated in the pathophysiology of schizophrenia. Here, we combined high-resolution single-nuclei RNA sequencing data from the human PFC with large-scale genomic data for schizophrenia to identify constituent cell populations likely to mediate genetic liability to the disorder.

Methods

Gene expression specificity values were calculated from a single-nuclei RNA sequencing dataset comprising 84 cell populations from the human PFC, spanning gestation to adulthood. Enrichment of schizophrenia common variant liability and burden of rare protein-truncating coding variants were tested in genes with high expression specificity for each cell type. We also explored schizophrenia common variant associations in relation to gene expression across the developmental trajectory of implicated neurons.

Results

Common risk variation for schizophrenia was prominently enriched in genes with high expression specificity for a population of mature layer 4 glutamatergic neurons emerging in infancy. Common variant liability to schizophrenia increased along the developmental trajectory of this neuronal population. Fine-mapped genes at schizophrenia genome-wide association study risk loci had significantly higher expression specificity than other genes in these neurons and in a population of layer 5/6 glutamatergic neurons. People with schizophrenia had a higher rate of rare protein-truncating coding variants in genes expressed by cells of the PFC than control individuals, but no cell population was significantly enriched above this background rate.

Conclusions

We identified a population of layer 4 glutamatergic PFC neurons likely to be particularly affected by common variant genetic risk for schizophrenia, which may contribute to disturbances in thalamocortical connectivity in the condition.

前额叶皮层特定谷氨酸能神经元对精神分裂症病理生理学的遗传学影响
背景前额叶皮质与精神分裂症的病理生理学密切相关。在这里,我们将人类前额叶皮质的高分辨率单核 RNA 测序数据与精神分裂症的大规模基因组数据结合起来,以确定可能介导精神分裂症遗传责任的组成细胞群。方法通过单核 RNA 测序数据集计算基因表达特异性值,该数据集由人类前额叶皮质的 84 个细胞群组成,时间跨度从妊娠期到成年期。我们在每种细胞类型的高表达特异性基因中检测了精神分裂症常见变异责任和罕见蛋白质截断编码变异负担的富集情况。我们还探讨了精神分裂症常见变异与受影响神经元整个发育轨迹中基因表达的关系。结果 在婴儿期出现的成熟的第 4 层谷氨酸能神经元群体中,精神分裂症常见风险变异在具有高表达特异性的基因中明显富集。精神分裂症的常见变异易感性随着这一神经元群的发育轨迹而增加。精神分裂症全基因组关联研究风险位点的精细映射基因在这些神经元和第5/6层谷氨酸能神经元群体中的表达特异性明显高于其他基因。与对照组相比,精神分裂症患者在PFC细胞表达的基因中出现罕见蛋白截断编码变异的比率更高,但没有一个细胞群的富集程度明显高于这一背景比率。结论我们发现了一个可能特别受到精神分裂症常见变异遗传风险影响的第4层谷氨酸能PFC神经元群,这可能是导致精神分裂症丘脑皮层连接紊乱的原因之一。
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来源期刊
Biological psychiatry global open science
Biological psychiatry global open science Psychiatry and Mental Health
CiteScore
4.00
自引率
0.00%
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审稿时长
91 days
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