👤 Almut Nebel

Prior research on the genetics of human longevity has identified only a few robust associations. While these studies highlight the importance of metabolic processes for longevity, the contribution of immune genes, specifically those in the highly polymorphic human leukocyte antigen (HLA) region, remains understudied. Here, we addressed this gap by analysing the influence of HLA variation on longevity in Europeans. We conducted an initial case-control study, comparing imputed HLA alleles from a German longevity cohort with younger controls. Associations were evaluated with logistic regression, adjusting for multiple testing and population structure. Subsequently, significant associations (adjusted P ≤ 0.05) were tested for replication in two additional populations of similar ancestry: a Danish longevity cohort and the UK Biobank. Furthermore, epitope binding and immunogenicity predictions were performed to detect potential mechanisms linking HLA alleles to longevity. Our analysis revealed a novel male-specific association of HLA-DRB1*15:01:01 with longevity (adjusted P = 2.80 × 10 The novel male-specific association between HLA-DRB1*15:01 and longevity has been observed in three independent cohorts. The anti-longevity effect of this association is perhaps a consequence of an increase in Alzheimer's disease (AD)-related mortality in men carrying this allele. This hypothesis is based on prior research that has identified a male-specific association between HLA-DRB1*15:01:01 and AD. Additionally, it is likely that this link is mediated by increased immune reactivity against APOB-100, which is promoted by HLA-DRB1*15:01:01. Show less

In this study, we investigated 102 single-nucleotide polymorphisms (SNPs) covering the common genetic variation in 16 genes recurrently regarded as candidates for human longevity: APOE; ACE; CETP; HFE; IL6; IL6R; MTHFR; TGFB1; APOA4; APOC3; SIRTs 1, 3, 6; and HSPAs 1A, 1L, 14. In a case-control study of 1,089 oldest-old (ages 92-93) and 736 middle-aged Danes, the minor allele frequency (MAF) of rs769449 (APOE) was significantly decreased in the oldest-old, while the MAF of rs9923854 (CETP) was significantly enriched. These effects were supported when investigating 1,613 oldest-old (ages 95-110) and 1,104 middle-aged Germans. rs769449 was in modest linkage equilibrium (R (2)=0.55) with rs429358 of the APOE-ε4 haplotype and adjusting for rs429358 eliminated the association of rs769449, indicating that the association likely reflects the well-known effect of rs429358. Gene-based analysis confirmed the effects of variation in APOE and CETP and furthermore pointed to HSPA14 as a longevity gene. In a longitudinal study with 11 years of follow-up on survival in the oldest-old Danes, only one SNP, rs2069827 (IL6), was borderline significantly associated with survival from age 92 (P-corrected=0.064). This advantageous effect of the minor allele was supported when investigating a Dutch longitudinal cohort (N=563) of oldest-old (age 85+). Since rs2069827 was located in a putative transcription factor binding site, quantitative RNA expression studies were conducted. However, no difference in IL6 expression was observed between rs2069827 genotype groups. In conclusion, we here support and expand the evidence suggesting that genetic variation in APOE, CETP, and IL6, and possible HSPA14, is associated with human longevity. Show less

Twin studies have shown that longevity in humans is moderately heritable with a genetic component of 25-32%. Experimental model organisms point to the existence of core survival and anti-ageing pathways that have been conserved throughout evolution. It has been shown that mutations in single genes involved in these pathways can either delay or accelerate the ageing process and that many of these genes and pathways are also present in humans. Here, we performed a targeted investigation of selected genes (i) involved in longevity pathways (insulin receptor/insulin-like growth factor-I signaling and energy metabolism, intracellular signaling, apoptosis and stress response) and (ii) in which mutations lead to genetic perturbations in animal models or human diseases. Altogether, we tested 500 nonsynonymous single nucleotide polymorphisms (SNPs) in 343 candidate genes for association with the longevity phenotype in a German sample comprising about 400 centenarians and an equal number of younger control subjects. Thus, this study presents one of the largest candidate studies in human genetic longevity research conducted to-date. The three top-ranking markers, which are located in the genes DUSP6, NALP1 and PERP, revealed p-values≤0.01 in the allelic case-control comparisons. Although the association signals in Germans were not replicated in an independent French sample, the large number of analysis results is deemed a valuable reference point for further genetic studies. Show less

Essential tremor (ET) is one of the most common movement disorders. Former association studies focussing on candidate genes in ET found a number of risk variants but most of them were not replicated. Recently, a genome-wide association study revealed two intronic sequence variants in the LINGO1 gene associated with ET. Here, we have confirmed association between sequence variants in the LINGO1 gene and the ET phenotype in independent German and French ET samples. The odds ratios for the identified intronic markers rs8030859 (P = 1.0x10(-4)), rs9652490 (P = 9.1x10(-4)), and rs11856808 (P = 3.6x10(-2)) were 1.72 (CI 1.31-2.26), 1.61 (CI 1.21-2.14), and 1.30 (CI 1.02-1.66), respectively, in our German sample. LINGO1 is an interesting candidate gene because it plays a key role in central nervous system biology, is selectively expressed in the nervous system, and is an inhibitor of oligodendrocyte differentiation and neuronal myelination. Our study gives further evidence that LINGO1 acts as a susceptibility gene for ET. Show less