Identification and functional characterization of an AMD associated c-ABL binding SNP streak within the ARMS2 gene promoter region

BackgroundLarge-scale genome-wide association studies (GWAS) have identified the human 10q26 locus as a major genetic risk factor for age-related macular degeneration (AMD). The AMD-associated interval has been refined to a 5,196 bp segment flanking the ARMS2-HTRA1 region, excluding HTRA1 and the ARMS2 3' indel (443del54ins) variant by risk haplotype analysis. Although the missense SNP rs10490924 has been proposed as a functional variant, its role in AMD remains controversial, and the causative variants and underlying mechanisms within this region remain unresolved. MethodsAn unbiased bioinformatic screen identified a 5-SNP block within the 5,196 bp interval that potentially alters c-ABL protein binding. Protein-DNA interactions were validated using electrophoretic mobility shift assay (EMSA) and chromatin immunoprecipitation (ChIP) assays. Genetic association with AMD (dry and wet subtypes) was assessed in patient cohorts using blood genomic DNA. The regulatory effect of the 5-SNP block was further examined using luciferase reporter assays. FindingsWe identified a 5-SNP block located [~]556 bp upstream of the ARMS2 start codon, representing a cluster of predicted c-ABL tyrosine kinase binding sites. This block, in complete linkage disequilibrium with rs10490924 (A69S), showed a strong association with both wet and dry AMD (136 controls, 179 dry AMD, 251 wet AMD). EMSA and ChIP confirmed direct c-ABL binding, while luciferase reporter assays demonstrated reduced transcriptional activity mediated by the 5-SNP block in the presence of c-ABL. InterpretationOur results suggest that the c-ABL-responsive 5-SNP regulatory streak in the ARMS2 promoter region act as functional non-coding elements that may contribute to AMD pathogenesis through altered transcriptional regulation.