Mij
Senior Member (Voting Rights)
AbstractBackground
Despite the identification of numerous genetic loci associated with autoimmune diseases (ADs) through genome-wide association studies (GWAS), elucidating the mechanisms underlying these associations remains challenging.
Methods
We integrated GWAS results with multi-omics data across diverse immune cell types to investigate both the shared and disease-specific association signals across 15 common ADs.
Results
Our analyses reveal a high prevalence of locus-sharing (50.8%) across these diseases when defined by physical proximity, but a substantially lower proportion of shared association signals (14.7%) when defined by linkage disequilibrium. This suggests that loci shared across diseases often harbor distinct association signals and mechanisms. We demonstrate that within individual loci, association signals frequently exhibit regulatory activity in different cell types and, less commonly, target different genes. Notably, for several loci, disease-specific associations appear to be mediated through regulatory activity in distinct cell types. Overall, we identify 1,554 genes associated with ADs. Further pathway enrichment and protein-protein interaction network analyses unveil both shared functions and disease-specific pathways among these genes.
Conclusions
By integrating GWAS and multi-omics data, our study delineates the genetic and regulatory architecture underlying autoimmunity, suggesting potential therapeutic targets and opportunities for drug repurposing.
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