Single-cell eQTL mapping identifies cell type–specific genetic control of autoimmune disease

Seyhan Yazar(Garvan Institute of Medical Research), José Alquicira-Hernández(Garvan Institute of Medical Research), Kristof Wing(University of Tasmania), Anne Senabouth(Garvan Institute of Medical Research), M. Grace Gordon(University of California, San Francisco), Stacey B. Andersen(The University of Queensland), Qinyi Lu(University of Tasmania), Antonia C. Rowson(University of Tasmania), Thomas R. Taylor(University of Tasmania), Linda Clarke(The University of Melbourne), Katia Maccora(University of Tasmania), Christine Chen(Monash Health), Anthony L. Cook(University of Tasmania), Chun Ye(University of California, San Francisco), Kirsten A. Fairfax(University of Tasmania), Alex W. Hewitt(University of Tasmania), Joseph E. Powell(Garvan Institute of Medical Research)
Science
April 7, 2022
10.1126/science.abf3041
Cited by 637Open Access
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Abstract

The human immune system displays substantial variation between individuals, leading to differences in susceptibility to autoimmune disease. We present single-cell RNA sequencing (scRNA-seq) data from 1,267,758 peripheral blood mononuclear cells from 982 healthy human subjects. For 14 cell types, we identified 26,597 independent cis-expression quantitative trait loci (eQTLs) and 990 trans-eQTLs, with most showing cell type-specific effects on gene expression. We subsequently show how eQTLs have dynamic allelic effects in B cells that are transitioning from naïve to memory states and demonstrate how commonly segregating alleles lead to interindividual variation in immune function. Finally, using a Mendelian randomization approach, we identify the causal route by which 305 risk loci contribute to autoimmune disease at the cellular level. This work brings together genetic epidemiology with scRNA-seq to uncover drivers of interindividual variation in the immune system.

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