FMR1, circadian genes and depression: suggestive associations or false discovery?

Q2 Biochemistry, Genetics and Molecular Biology

Journal of Circadian Rhythms Pub Date : 2013-03-23 DOI:10.1186/1740-3391-11-3

Daniel F Kripke, Caroline M Nievergelt, Gregory J Tranah, Sarah S Murray, Katharine M Rex, Alexandra P Grizas, Elizabeth K Hahn, Heon-Jeong Lee, John R Kelsoe, Lawrence E Kline

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引用次数: 14

Abstract

Background: There are several indications that malfunctions of the circadian clock contribute to depression. To search for particular circadian gene polymorphisms associated with depression, diverse polymorphisms were genotyped in two samples covering a range of depressed volunteers and participants with normal mood.

Methods: Depression mood self-ratings and DNA were collected independently from a sample of patients presenting to a sleep disorders center (1086 of European origin) and from a separate sample consisting of 399 participants claiming delayed sleep phase symptoms and 406 partly-matched controls. A custom Illumina Golden Gate array of 768 selected single nucleotide polymorphisms (SNPs) was assayed in both samples, supplemented by additional SNPlex and Taqman assays, including assay of 41 ancestry-associated markers (AIMs) to control stratification.

Results: In the Sleep Clinic sample, these assays yielded Bonferroni-significant association with depressed mood in three linked SNPs of the gene FMR1: rs25702 (nominal P=1.77E-05), rs25714 (P=1.83E-05), and rs28900 (P=5.24E-05). This FMR1 association was supported by 8 SNPs with nominal significance and a nominally-significant gene-wise set test. There was no association of depressed mood with FMR1 in the delayed sleep phase case-control sample or in downloaded GWAS data from the GenRED 2 sample contrasting an early-onset recurrent depression sample with controls. No replication was located in other GWAS studies of depression. Our data did weakly replicate a previously-reported association of depression with PPARGC1B rs7732671 (P=0.0235). Suggestive associations not meeting strict criteria for multiple testing and replication were found with GSK3B, NPAS2, RORA, PER3, CRY1, MTNR1A and NR1D1. Notably, 16 SNPs nominally associated with depressed mood (14 in GSK3B) were also nominally associated with delayed sleep phase syndrome (P=3E10-6).

Conclusions: Considering the inconsistencies between samples and the likelihood that the significant three FMR1 SNPs might be linked to complex polymorphisms more functionally related to depression, large gene resequencing studies may be needed to clarify the import for depression of these circadian genes.

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FMR1、昼夜节律基因与抑郁症:暗含关联还是错误发现?

背景:有几个迹象表明，生物钟的故障会导致抑郁症。为了寻找与抑郁症相关的特定昼夜节律基因多态性，研究人员在两个样本中对不同的多态性进行了基因分型，这些样本涵盖了一系列抑郁症志愿者和情绪正常的参与者。方法:从一个睡眠障碍中心(1086名欧洲裔)的患者样本和一个由399名声称睡眠阶段延迟症状的参与者和406名部分匹配的对照组组成的单独样本中独立收集抑郁情绪自我评级和DNA。采用定制的Illumina Golden Gate阵列检测768个选定的单核苷酸多态性(snp)，并辅以额外的SNPlex和Taqman检测，包括41个祖先相关标记(AIMs)的检测，以控制分层。结果:在睡眠诊所样本中，这些分析发现FMR1基因的三个连锁snp与抑郁情绪有bonferroni显著关联:rs25702(名义P=1.77E-05)， rs25714 (P=1.83E-05)和rs28900 (P=5.24E-05)。这种FMR1关联得到了8个具有名义显著性的snp和一个名义显著的基因集测试的支持。在延迟睡眠阶段的病例对照样本中，或者在从GenRED 2样本中下载的GWAS数据中，与早发性复发性抑郁症样本相比，抑郁情绪与FMR1没有关联。在其他关于抑郁症的GWAS研究中没有发现相同的结果。我们的数据微弱地重复了先前报道的抑郁症与PPARGC1B rs7732671的关联(P=0.0235)。GSK3B、NPAS2、RORA、PER3、CRY1、MTNR1A和NR1D1不符合严格的多重检测和复制标准。值得注意的是，名义上与抑郁情绪相关的16个snp (GSK3B中的14个)也名义上与睡眠阶段延迟综合征相关(P=3E10-6)。结论:考虑到样本之间的不一致性，以及三个重要的FMR1 snp可能与与抑郁症功能更相关的复杂多态性相关的可能性，可能需要大规模的基因重测序研究来阐明这些昼夜节律基因对抑郁症的重要性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Circadian Rhythms Biochemistry, Genetics and Molecular Biology-Physiology

CiteScore

7.10

自引率

0.00%

发文量

审稿时长

12 weeks

期刊介绍： Journal of Circadian Rhythms is an Open Access, peer-reviewed online journal that publishes research articles dealing with circadian and nycthemeral (daily) rhythms in living organisms, including processes associated with photoperiodism and daily torpor. Journal of Circadian Rhythms aims to include both basic and applied research at any level of biological organization (molecular, cellular, organic, organismal, and populational). Studies of daily rhythms in environmental factors that directly affect circadian rhythms are also pertinent to the journal"s mission.