全基因组分析阿尔茨海默病遗传易感性及相关性别差异。
Genome-wide analysis of genetic predisposition to Alzheimer's disease and related sex disparities.
机构信息
Biodemography of Aging Research Unit, Social Science Research Institute, Duke University, Erwin Mill Building, 2024 W. Main St., Durham, NC, 27705, USA.
出版信息
Alzheimers Res Ther. 2019 Jan 12;11(1):5. doi: 10.1186/s13195-018-0458-8.
BACKGROUND
Alzheimer's disease (AD) is the most common cause of dementia in the elderly and the sixth leading cause of death in the United States. AD is mainly considered a complex disorder with polygenic inheritance. Despite discovering many susceptibility loci, a major proportion of AD genetic variance remains to be explained.
METHODS
We investigated the genetic architecture of AD in four publicly available independent datasets through genome-wide association, transcriptome-wide association, and gene-based and pathway-based analyses. To explore differences in the genetic basis of AD between males and females, analyses were performed on three samples in each dataset: males and females combined, only males, or only females.
RESULTS
Our genome-wide association analyses corroborated the associations of several previously detected AD loci and revealed novel significant associations of 35 single-nucleotide polymorphisms (SNPs) outside the chromosome 19q13 region at the suggestive significance level of p < 5E-06. These SNPs were mapped to 21 genes in 19 chromosomal regions. Of these, 17 genes were not associated with AD at genome-wide or suggestive levels of associations by previous genome-wide association studies. Also, the chromosomal regions corresponding to 8 genes did not contain any previously detected AD-associated SNPs with p < 5E-06. Our transcriptome-wide association and gene-based analyses revealed that 26 genes located in 20 chromosomal regions outside chromosome 19q13 had evidence of potential associations with AD at a false discovery rate of 0.05. Of these, 13 genes/regions did not contain any previously AD-associated SNPs at genome-wide or suggestive levels of associations. Most of the newly detected AD-associated SNPs and genes were sex specific, indicating sex disparities in the genetic basis of AD. Also, 7 of 26 pathways that showed evidence of associations with AD in our pathway-bases analyses were significant only in females.
CONCLUSIONS
Our findings, particularly the newly discovered sex-specific genetic contributors, provide novel insight into the genetic architecture of AD and can advance our understanding of its pathogenesis.
背景
阿尔茨海默病(AD)是老年人中最常见的痴呆症病因,也是美国第六大死因。AD 主要被认为是一种具有多基因遗传的复杂疾病。尽管已经发现了许多易感性基因座,但 AD 的遗传变异仍有很大一部分尚未得到解释。
方法
我们通过全基因组关联、转录组关联以及基于基因和基于途径的分析,在四个公开的独立数据集研究 AD 的遗传结构。为了探索 AD 遗传基础在男性和女性之间的差异,我们在每个数据集的三个样本中进行了分析:男性和女性合并、仅男性或仅女性。
结果
我们的全基因组关联分析证实了几个先前检测到的 AD 基因座的关联,并在提示性显著水平 p < 5E-06 下揭示了 35 个位于 19 号染色体 q13 区域之外的单核苷酸多态性(SNP)的新的显著关联。这些 SNP 映射到 19 个染色体区域的 21 个基因。其中,17 个基因在之前的全基因组关联研究中未达到全基因组或提示性关联水平与 AD 相关。此外,与 8 个基因对应的染色体区域不包含任何先前检测到的与 p < 5E-06 的 AD 相关的 SNP。我们的转录组关联和基于基因的分析表明,20 个位于 19 号染色体 q13 之外的染色体区域中的 26 个基因在外显率为 0.05 的情况下具有与 AD 相关的潜在关联的证据。其中,13 个基因/区域在全基因组或提示性关联水平上与 AD 没有任何先前相关的 SNP。大多数新发现的与 AD 相关的 SNP 和基因是性别特异性的,这表明 AD 遗传基础存在性别差异。此外,我们的途径基础分析中与 AD 有证据表明关联的 26 个途径中的 7 个仅在女性中显著。
结论
我们的发现,特别是新发现的性别特异性遗传贡献者,为 AD 的遗传结构提供了新的见解,并可以推进我们对其发病机制的理解。
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