Negligible impact of rare autoimmune-locus coding-region variants on missing heritability

A search for variants in coding exons of 25 genome-wide association study risk genes in a large cohort of autoimmune patients finds that rare coding-region variants at known loci have a negligible role in common autoimmune disease susceptibility, arguing against the previously proposed rare-variant synthetic genome-wide association hypothesis. Although many common variants of modest-effect size have been identified in genome-wide association studies (GWAS), much of the heritability of complex traits remains unexplained. These authors looked for variants in coding exons of 25 GWAS risk genes in a large cohort of subjects with six autoimmune disease phenotypes and controls, and show that rare coding-region variants at known loci have at most a minor role in common autoimmune disease susceptibility. These results do not support the theory that the missing heritability for common autoimmune diseases is attributable to rare coding mutations at known loci, but are consistent with disease caused by many common-variant loci of weak effect. Genome-wide association studies (GWAS) have identified common variants of modest-effect size at hundreds of loci for common autoimmune diseases; however, a substantial fraction of heritability remains unexplained, to which rare variants may contribute1,2. To discover rare variants and test them for association with a phenotype, most studies re-sequence a small initial sample size and then genotype the discovered variants in a larger sample set3,4,5. This approach fails to analyse a large fraction of the rare variants present in the entire sample set. Here we perform simultaneous amplicon-sequencing-based variant discovery and genotyping for coding exons of 25 GWAS risk genes in 41,911 UK residents of white European origin, comprising 24,892 subjects with six autoimmune disease phenotypes and 17,019 controls, and show that rare coding-region variants at known loci have a negligible role in common autoimmune disease susceptibility. These results do not support the rare-variant synthetic genome-wide-association hypothesis6 (in which unobserved rare causal variants lead to association detected at common tag variants). Many known autoimmune disease risk loci contain multiple, independently associated, common and low-frequency variants, and so genes at these loci are a priori stronger candidates for harbouring rare coding-region variants than other genes. Our data indicate that the missing heritability for common autoimmune diseases may not be attributable to the rare coding-region variant portion of the allelic spectrum, but perhaps, as others have proposed, may be a result of many common-variant loci of weak effect7,8,9,10.