Brain differential gene expression and blood cross-validation of a molecular signature of patients with major depressive disorder.

IF 1.5 4区 医学 Q4 GENETICS & HEREDITY
Psychiatric Genetics Pub Date : 2022-06-01 Epub Date: 2022-01-12 DOI:10.1097/YPG.0000000000000309
Hugo Gomez Rueda, Juan Bustillo
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引用次数: 2

Abstract

Introduction: The agreement between clinicians diagnosing major depressive disorder (MDD) is poor. The objective of this study was to identify a reproducible and robust gene expression marker capable of differentiating MDD from healthy control (HC) subjects.

Materials and methods: Brain and blood gene expression datasets were searched, which included subjects with MDD and HC. The largest database including different areas of brain samples (GSE80655) was used to identify an initial gene expression marker. Tests of robustness and reproducibility were then implemented in 13 brain and 7 blood independent datasets. Correlations between expression in brain and blood samples were also examined. Finally, an enrichment analysis to explore the marker biological meaning was completed.

Results: Twenty-eight genes were differentially expressed in GSE80655, of which 23 were critical to differentiate MDD from HC. The accuracy obtained using the 23 genes was 0.77 and 0.8, before and after the forward selection model, respectively. The gene marker's robustness and reproducibility were between the range of 0.46 and 0.63 in the other brain datasets and between 0.45 and 0.78 for the blood datasets. Brain and blood expression tended to correlate in some samples. Thirteen of the 23 genes were related to stress and immune response.

Conclusion: A 23 gene expression marker was able to distinguish subjects with MDD from HC, with adequate reproducibility and low robustness in the independent databases investigated. This gene set was similarly expressed in the brain and blood and involved genes related to stress and immune response.

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重度抑郁症患者的脑差异基因表达和血液交叉验证分子特征。
引言:临床医生诊断重度抑郁症(MDD)的一致性较差。本研究的目的是鉴定一种可重复且稳健的基因表达标记物,该标记物能够区分MDD和健康对照(HC)受试者。材料和方法:检索大脑和血液基因表达数据集,其中包括MDD和HC受试者。包括大脑样本不同区域的最大数据库(GSE80655)用于鉴定初始基因表达标记。然后在13个大脑和7个血液独立数据集中进行稳健性和再现性测试。还检测了大脑和血液样本中的表达之间的相关性。最后,完成了对该标记物生物学意义的富集分析。结果:28个基因在GSE80655中差异表达,其中23个基因对MDD和HC的鉴别至关重要。在正向选择模型之前和之后,使用23个基因获得的准确度分别为0.77和0.8。在其他大脑数据集中,基因标记的稳健性和再现性在0.46和0.63之间,在血液数据集中在0.45和0.78之间。在一些样本中,大脑和血液的表达往往是相关的。23个基因中有13个与应激和免疫反应有关。结论:23基因表达标记能够区分MDD和HC受试者,在所研究的独立数据库中具有足够的再现性和低稳健性。该基因集在大脑和血液中也有类似的表达,涉及与压力和免疫反应相关的基因。
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来源期刊
Psychiatric Genetics
Psychiatric Genetics 医学-神经科学
CiteScore
2.30
自引率
0.00%
发文量
39
审稿时长
3 months
期刊介绍: ​​​​​​The journal aims to publish papers which bring together clinical observations, psychological and behavioural abnormalities and genetic data. All papers are fully refereed. Psychiatric Genetics is also a forum for reporting new approaches to genetic research in psychiatry and neurology utilizing novel techniques or methodologies. Psychiatric Genetics publishes original Research Reports dealing with inherited factors involved in psychiatric and neurological disorders. This encompasses gene localization and chromosome markers, changes in neuronal gene expression related to psychiatric disease, linkage genetics analyses, family, twin and adoption studies, and genetically based animal models of neuropsychiatric disease. The journal covers areas such as molecular neurobiology and molecular genetics relevant to mental illness. Reviews of the literature and Commentaries in areas of current interest will be considered for publication. Reviews and Commentaries in areas outside psychiatric genetics, but of interest and importance to Psychiatric Genetics, will also be considered. Psychiatric Genetics also publishes Book Reviews, Brief Reports and Conference Reports.
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