Institute of Clinical Molecular Biology, Kiel University, University Hospital Schleswig-Holstein, Germany.
The Danish Twin Registry and The Danish Aging Research Center, Department of Public Health, University of Southern Denmark, Odense C.
J Gerontol A Biol Sci Med Sci. 2021 Apr 30;76(5):786-795. doi: 10.1093/gerona/glab023.
Despite enormous research efforts, the genetic component of longevity has remained largely elusive. The investigation of common variants, mainly located in intronic or regulatory regions, has yielded only little new information on the heritability of the phenotype. Here, we performed a chip-based exome-wide association study investigating 62 488 common and rare coding variants in 1248 German long-lived individuals, including 599 centenarians and 6941 younger controls (age < 60 years). In a single-variant analysis, we observed an exome-wide significant association between rs1046896 in the gene fructosamine-3-kinase-related-protein (FN3KRP) and longevity. Noteworthy, we found the longevity allele C of rs1046896 to be associated with an increased FN3KRP expression in whole blood; a database look-up confirmed this effect for various other human tissues. A gene-based analysis, in which potential cumulative effects of common and rare variants were considered, yielded the gene phosphoglycolate phosphatase (PGP) as another potential longevity gene, though no single variant in PGP reached the discovery p-value (1 × 10E-04). Furthermore, we validated the previously reported longevity locus cyclin-dependent kinase inhibitor 2B antisense RNA 1 (CDKN2B-AS1). Replication of our results in a French longevity cohort was only successful for rs1063192 in CDKN2B-AS1. In conclusion, we identified 2 new potential candidate longevity genes, FN3KRP and PGP which may influence the phenotype through their role in metabolic processes, that is, the reverse glycation of proteins (FN3KRP) and the control of glycerol-3-phosphate levels (PGP).
尽管进行了大量研究,但长寿的遗传成分在很大程度上仍然难以捉摸。对常见变体的研究,主要位于内含子或调节区域,对表型的遗传性仅提供了很少的新信息。在这里,我们进行了基于芯片的外显子组全基因组关联研究,调查了 1248 名德国长寿个体中的 62488 个常见和罕见编码变体,包括 599 名百岁老人和 6941 名年轻对照(年龄<60 岁)。在单变体分析中,我们观察到基因果糖胺-3-激酶相关蛋白(FN3KRP)中的 rs1046896 与长寿之间存在全外显子组显著关联。值得注意的是,我们发现 rs1046896 的长寿等位基因 C 与全血中 FN3KRP 表达增加有关;数据库查询证实了这种效应在各种其他人体组织中存在。考虑到常见和罕见变体的潜在累积效应的基于基因的分析产生了磷酸甘油酸磷酸酶(PGP)作为另一个潜在的长寿基因,尽管 PGP 中的单个变体没有达到发现 p 值(1×10E-04)。此外,我们验证了先前报道的长寿基因座细胞周期蛋白依赖性激酶抑制剂 2B 反义 RNA 1(CDKN2B-AS1)。在法国长寿队列中的结果复制仅成功 rs1063192 在 CDKN2B-AS1 中。总之,我们确定了 2 个新的潜在候选长寿基因,FN3KRP 和 PGP,它们可能通过在代谢过程中发挥作用影响表型,即蛋白质的逆糖化(FN3KRP)和甘油-3-磷酸水平的控制(PGP)。
