Myeloid cell genome-wide screen identifies variants associated with Mycobacterium tuberculosis-induced cytokine transcriptional responses.

Abstract

Immune and clinical outcomes to Mycobacterium tuberculosis (Mtb) infection vary greatly between individuals yet the underlying genetic and cellular mechanisms driving this heterogeneity remain poorly understood. We performed a cellular genome-wide association study (GWAS) to identify genetic variants associated with Mtb-induced monocyte transcriptional expression of IL1B, IL6, TNF, and IFNB1 via RNA-seq in a Ugandan cohort. Significantly associated variants were assessed for transferability in an independent Seattle cohort, further validated in vitro, and assessed for clinical phenotype associations. We identified 77 loci suggestively associated with Mtb-induced cytokine expression in monocytes in Uganda. SNPs associated with Mtb-induced TNF were enriched within alpha-linolenic acid metabolism pathway genes which was validated in vitro using PLA2 inhibitors. Four loci maintained significant associations in Seattle. We validated cytokine effect with siRNA knockdown for two of these loci which mapped to the genes SLIT3 and SLC1A1. Furthermore, exogenous treatment of macrophages with SLIT3 enhanced Mtb intracellular replication. Finally, SLC1A1 and SLIT3 variants were associated with susceptibility to tuberculous meningitis (TBM) and subsequent survival in a Vietnamese cohort, respectively. In sum, we identified multiple variants and pathways associated with Mtb-induced cytokine transcriptional responses that validated in vitro and were associated with clinical TB susceptibility.