Integrative multi-omics analysis of genomic, epigenomic, and metabolomics data leads to new insights for Attention-Deficit/Hyperactivity Disorder

IF 1.6 3区 医学 Q3 GENETICS & HEREDITY
Nikki Hubers, Fiona A. Hagenbeek, René Pool, Sébastien Déjean, Amy C. Harms, Peter J. Roetman, Catharina E. M. van Beijsterveldt, Vassilios Fanos, Erik A. Ehli, Robert R. J. M. Vermeiren, Meike Bartels, Jouke Jan Hottenga, Thomas Hankemeier, Jenny van Dongen, Dorret I. Boomsma
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Abstract

The evolving field of multi-omics combines data and provides methods for simultaneous analysis across several omics levels. Here, we integrated genomics (transmitted and non-transmitted polygenic scores [PGSs]), epigenomics, and metabolomics data in a multi-omics framework to identify biomarkers for Attention-Deficit/Hyperactivity Disorder (ADHD) and investigated the connections among the three omics levels. We first trained single- and next multi-omics models to differentiate between cases and controls in 596 twins (cases = 14.8%) from the Netherlands Twin Register (NTR) demonstrating reasonable in-sample prediction through cross-validation. The multi-omics model selected 30 PGSs, 143 CpGs, and 90 metabolites. We confirmed previous associations of ADHD with glucocorticoid exposure and the transmembrane protein family TMEM, show that the DNA methylation of the MAD1L1 gene associated with ADHD has a relation with parental smoking behavior, and present novel findings including associations between indirect genetic effects and CpGs of the STAP2 gene. However, out-of-sample prediction in NTR participants (N = 258, cases = 14.3%) and in a clinical sample (N = 145, cases = 51%) did not perform well (range misclassification was [0.40, 0.57]). The results highlighted connections between omics levels, with the strongest connections between non-transmitted PGSs, CpGs, and amino acid levels and show that multi-omics designs considering interrelated omics levels can help unravel the complex biology underlying ADHD.

Abstract Image

基因组、表观基因组和代谢组学数据的综合多组学分析为注意力缺陷/多动障碍提供了新的见解。
多组学的发展领域结合了数据,并提供了跨多个组学水平同时分析的方法。在这里,我们在多组学框架中整合了基因组学(传播和非传播多基因评分[PGS])、表观基因组学和代谢组学数据,以确定注意力缺陷/多动障碍(ADHD)的生物标志物,并调查了三个组学水平之间的联系。我们首先训练了单个和下一个多组学模型,以区分596对双胞胎的病例和对照组(病例 = 14.8%),通过交叉验证证明了合理的样本内预测。多组学模型选择了30个PGS、143个CpG和90个代谢物。我们证实了先前ADHD与糖皮质激素暴露和跨膜蛋白家族TMEM的关联,表明与ADHD相关的MAD1L1基因的DNA甲基化与父母吸烟行为有关,并提出了新的发现,包括间接遗传效应与STAP2基因CpG之间的关联。然而,NTR参与者的样本外预测(N = 258例 = 14.3%)和临床样本(N = 145例 = 51%)表现不佳(范围错误分类为[0.40,0.57])。结果强调了组学水平之间的联系,非传播的PGS、CpG和氨基酸水平之间的关系最强,并表明考虑相互关联的组学水平的多组学设计有助于解开多动症背后的复杂生物学。
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来源期刊
CiteScore
5.90
自引率
7.10%
发文量
40
审稿时长
4-8 weeks
期刊介绍: Neuropsychiatric Genetics, Part B of the American Journal of Medical Genetics (AJMG) , provides a forum for experimental and clinical investigations of the genetic mechanisms underlying neurologic and psychiatric disorders. It is a resource for novel genetics studies of the heritable nature of psychiatric and other nervous system disorders, characterized at the molecular, cellular or behavior levels. Neuropsychiatric Genetics publishes eight times per year.
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