Institute of Clinical Molecular Biology, Christian Albrechts University, Kiel, Germany.
Mech Ageing Dev. 2011 Jun-Jul;132(6-7):324-30. doi: 10.1016/j.mad.2011.06.008. Epub 2011 Jun 29.
We conducted a case-control genome-wide association study (GWAS) of human longevity, comparing 664,472 autosomal SNPs in 763 long-lived individuals (LLI; mean age: 99.7 years) and 1085 controls (mean age: 60.2 years) from Germany. Only one association, namely that of SNP rs4420638 near the APOC1 gene, achieved genome-wide significance (allele-based P=1.8×10(-10)). However, logistic regression analysis revealed that this association, which was replicated in an independent German sample, is fully explicable by linkage disequilibrium with the APOE allele ɛ4, the only variant hitherto established as a major genetic determinant of survival into old age. Our GWAS failed to identify any additional autosomal susceptibility genes. One explanation for this lack of success in our study would be that GWAS provide only limited statistical power for a polygenic phenotype with loci of small effect such as human longevity. A recent GWAS in Dutch LLI independently confirmed the APOE-longevity association, thus strengthening the conclusion that this locus is a very, if not the most, important genetic factor influencing longevity.
我们进行了一项针对人类长寿的病例对照全基因组关联研究(GWAS),比较了来自德国的 763 名长寿个体(LLI;平均年龄:99.7 岁)和 1085 名对照(平均年龄:60.2 岁)的 664,472 个常染色体 SNPs。只有一个关联,即 APOC1 基因附近的 SNP rs4420638,达到了全基因组显著水平(基于等位基因的 P=1.8×10(-10))。然而,逻辑回归分析表明,这种关联在一个独立的德国样本中得到了复制,完全可以用 APOE 等位基因 ɛ4 的连锁不平衡来解释,APOE 等位基因 ɛ4 是迄今为止被确定为影响长寿的主要遗传决定因素之一。我们的 GWAS 未能确定任何其他常染色体易感基因。造成这种缺乏成功的一个解释可能是,GWAS 对于像人类长寿这样的多基因表型,其位点效应较小,提供的统计能力有限。最近在荷兰 LLI 进行的一项 GWAS 独立证实了 APOE-长寿关联,从而加强了这一结论,即该位点是影响长寿的一个非常重要的遗传因素,如果不是最重要的遗传因素的话。
