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Targeted genomic analysis reveals widespread autoimmune disease association with regulatory variants in the TNF superfamily cytokine signalling network.

Published version
Peer-reviewed

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Authors

Richard, Arianne C 
Peters, James E 
Lee, James C 
Vahedi, Golnaz 
Schäffer, Alejandro A 

Abstract

BACKGROUND: Tumour necrosis factor (TNF) superfamily cytokines and their receptors regulate diverse immune system functions through a common set of signalling pathways. Genetic variants in and expression of individual TNF superfamily cytokines, receptors and signalling proteins have been associated with autoimmune and inflammatory diseases, but their interconnected biology has been largely unexplored. METHODS: We took a hypothesis-driven approach using available genome-wide datasets to identify genetic variants regulating gene expression in the TNF superfamily cytokine signalling network and the association of these variants with autoimmune and autoinflammatory disease. Using paired gene expression and genetic data, we identified genetic variants associated with gene expression, expression quantitative trait loci (eQTLs), in four peripheral blood cell subsets. We then examined whether eQTLs were dependent on gene expression level or the presence of active enhancer chromatin marks. Using these eQTLs as genetic markers of the TNF superfamily signalling network, we performed targeted gene set association analysis in eight autoimmune and autoinflammatory disease genome-wide association studies. RESULTS: Comparison of TNF superfamily network gene expression and regulatory variants across four leucocyte subsets revealed patterns that differed between cell types. eQTLs for genes in this network were not dependent on absolute gene expression levels and were not enriched for chromatin marks of active enhancers. By examining autoimmune disease risk variants among our eQTLs, we found that risk alleles can be associated with either increased or decreased expression of co-stimulatory TNF superfamily cytokines, receptors or downstream signalling molecules. Gene set disease association analysis revealed that eQTLs for genes in the TNF superfamily pathway were associated with six of the eight autoimmune and autoinflammatory diseases examined, demonstrating associations beyond single genome-wide significant hits. CONCLUSIONS: This systematic analysis of the influence of regulatory genetic variants in the TNF superfamily network reveals widespread and diverse roles for these cytokines in susceptibility to a number of immune-mediated diseases.

Description

Keywords

Autoimmunity, Autoinflammation, GWAS, Gene set analysis, Genetics, Genomics, TNF superfamily, eQTL, Alleles, Autoimmune Diseases, Chromatin, Gene Expression Regulation, Gene Regulatory Networks, Genetic Predisposition to Disease, Genome, Human, Genome-Wide Association Study, Hereditary Autoinflammatory Diseases, Humans, Leukocytes, Mononuclear, Protein Isoforms, Quantitative Trait Loci, Receptors, Tumor Necrosis Factor, Risk, Signal Transduction, Tumor Necrosis Factor-alpha

Journal Title

Genome Med

Conference Name

Journal ISSN

1756-994X
1756-994X

Volume Title

8

Publisher

Springer Science and Business Media LLC
Sponsorship
Medical Research Council (G0400929)
Medical Research Council (MR/L019027/1)
Wellcome Trust (087007/Z/08/Z)
Wellcome Trust (097449/Z/11/Z)
Wellcome Trust (080327/Z/06/Z)
Wellcome Trust (094227/Z/10/Z)
Wellcome Trust (079895/Z/06/B)
The Intramural Research Program of the National Institute of Arthritis and Musculoskeletal and Skin Diseases and the National Library of Medicine of the US National Institutes of Health (Intramural Research Program) , Wellcome Trust (080327/Z/06/Z, 087007/Z/08/Z, 094227/Z/10/Z, Clinical PhD Programme, 079895, 076113 and 085475) , Medical Research Council (G0400929) , National Institute for Health Research , National Institutes of Health (Oxford-Cambridge Scholars Program) , Istanbul University Research Fund and UK Behcet’s Syndrome Society.