Genomic assessment of early‐onset AD identifies novel risk loci and an incomplete genetic overlap with late‐onset AD

Abstract

AbstractBackgroundEarly Onset Alzheimer Disease (EOAD, age at onset [AAO] < = 65) is a severe form of AD, often occurring when patients are still caring for children or adults. Despite this, most genetic studies of EOAD have focused on autosomal dominant forms, and there is little understanding of similarities and differences between early and late onset forms of AD (LOAD, [AAO]>65). To address this, we present a genome‐wide association study of non‐Mendelian EOAD and compare it to LOAD GWAS.MethodsPrimary single‐variant analyses were performed using two additive logistic regression for case‐control models (full: SNPs, PCs, sex and APOE‐ɛ4 dosage as covariates; reduced: SNPs and PCs); secondary models included PCs+sex and PCs+APOE. Models were applied on data derived from the Alzheimer Disease Genetics Consortium (ADGC), composed by unrelated individuals. Samples varied from 1293‐1459 cases and 8894‐9366 controls for EOAD, and 8795‐9508 cases and 9702‐10273 controls for LOAD, depending on the considered model. The SNP heritability (h2) and genetic correlation (rg) were estimated using LD score regression. Gene‐based and pathway analysis (gene sets from Msigdb‐v7.0) were performed using FUMA/MAGMA‐v1.6.ResultsWe identified two novel loci associated with EOAD: Chromosome 4 (full model: chr4:102027610, P = 2.98×10−08, near PPP3CA gene) and Chromosome 12 (PCs+sex model: rs117001070, P = 2.11×10−08, intergenic between LINC02444 and LINC02882). We additionally confirmed BIN1 and APOE in the EOAD subset. Several known genes also showed a significant association with LOAD. Heritability analyses showed higher h2 values for EOAD (h2 = 0.29, 0.29, 0.29 and 0.27) than LOAD (h2 = 0.19, 0.16, 0.19, and 0.15), for full, reduced, PCs+sex and PCs+APOE models respectively. Genetic correlation showed moderate but incomplete genetic correlation between EOAD and LOAD. Other than APOE (p = 3.89×10−12), gene‐based tests showed nominal association for EOAD C8orf44‐SGK3 (p = 9.95×10−06), SGK3 (p = 2.01×10−05) and HIST1H2AC (p = 3.04×10−05), and plausible pathways such as HDL remodeling (p = 5.50×10−05) and positive regulation of cholesterol efflux (p = 9.79×10−05). These pathways were nominally associated with LOAD (p = 0.04 and p = 4.05×10−03).ConclusionsWe identified two novel loci associated to EOAD not previously reported by LOAD studies. Heritability and genetic correlation results suggest that the genetic etiology of EOAD has an incomplete genetic overlap with LOAD.