二维基因组扫描鉴定双相情感障碍中的多种遗传相互作用。

Two-dimensional genome scan identifies multiple genetic interactions in bipolar affective disorder.

机构信息

Prince of Wales Medical Research Institute, Sydney, New South Wales 2031, Australia.

出版信息

Biol Psychiatry. 2010 Mar 1;67(5):478-86. doi: 10.1016/j.biopsych.2009.10.022. Epub 2009 Dec 22.

DOI:10.1016/j.biopsych.2009.10.022

PMID:20022591

Abstract

BACKGROUND

Bipolar disorder is a highly heritable psychiatric condition, the etiology of which remains largely unknown despite extensive efforts to identify susceptibility genes. Interactions between genes of small individual effect could partially explain the difficulties of traditional one-dimensional approaches to identify genetic risk factors.

METHODS

A nonparametric linkage (NPL) analysis of 65 Australian extended pedigrees containing 643 genotyped individuals (of whom 40% were diagnosed with affective disorder) was conducted. Chromosome-by-chromosome correlation analysis of family-specific NPL scores was conducted to detect evidence of genetic interaction. Interaction-specific multipoint NPL and permutation analysis was used to assess linkage interdependence, using family weights derived from the alternative interacting chromosome. Finally, a single nucleotide analysis of each interaction region was conducted using the publicly available genome-wide association, datasets (2933 cases, 2534 controls).

RESULTS

Significant NPL peaks were detected on chromosomes 2q24-33, 7q21-31, and 17q11-25 (Z = 3.12, 3.01, and 2.95 respectively), with four additional suggestive peaks identified. Four robust interchromosomal interaction clusters exceeding Bonferroni correction at alpha = .05 (uncorrected p < 5.38e-07) were detected on 11q23-25-2p15-12, 4q32-35-1p36, 12q23-24-4p16-15, and 20q13-9q21-22. This linkage interdependence was determined significant after permutation analysis (p = .002-.0002). A suggestive interaction was observed in the combined data on 2p14-11q23 (uncorrected p = 5.76E-10, Bonferroni corrected p = .068).

CONCLUSIONS

This study indicates a complex interplay between multiple loci underlying bipolar disorder susceptibility, and highlights the continuing usefulness of extended pedigrees in complex genetics. The challenge lies in the identification of specific gene interactions and their biological validation.

摘要

背景

双相情感障碍是一种高度遗传性精神疾病，尽管人们努力寻找易感基因，但该病的病因仍很大程度上未知。具有较小个体效应的基因相互作用可能部分解释了传统的一维方法识别遗传风险因素的困难。

方法

对包含 643 个基因分型个体的 65 个澳大利亚扩展家系（其中 40%被诊断为情感障碍）进行非参数连锁（NPL）分析。对家族特异性 NPL 评分进行染色体逐染色体相关性分析，以检测遗传相互作用的证据。使用来自替代相互作用染色体的家族权重，对特定于相互作用的多点 NPL 和置换分析进行了评估，以评估连锁相互依赖。最后，使用公开的全基因组关联数据集（2933 例病例，2534 例对照）对每个相互作用区域进行单核苷酸分析。

结果

在染色体 2q24-33、7q21-31 和 17q11-25 上检测到显著的 NPL 峰（Z 值分别为 3.12、3.01 和 2.95），并确定了另外四个提示性峰值。在 11q23-25-2p15-12、4q32-35-1p36、12q23-24-4p16-15 和 20q13-9q21-22 上检测到四个稳健的染色体间相互作用簇，超过 Bonferroni 校正的α值为.05（未校正的 p<5.38e-07）。经过置换分析后，确定这种连锁相互依赖关系具有统计学意义（p=.002-.0002）。在合并数据中，在 2p14-11q23 上观察到提示性相互作用（未校正的 p=5.76E-10，Bonferroni 校正的 p=.068）。