Functional Differences Exist between TNFα Promoters Encoding the Common −237G SNP and the Rarer HLA-B*5701-Linked A Variant

Peter D Simpson,Kritika Sudan,Geraldine M Gillespie,Eirini Moysi,Julian Knight,Sarah L Rowland-Jones,Kate Wicks,Andrew J Mcmichael,Rachel Louise Allen

doi:10.1371/journal.pone.0040100

Abstract

A large body of functional and epidemiological evidence have previously illustrated the impact of specific MHC class I subtypes on clinical outcome during HIV-1 infection, and these observations have recently been re-iterated in genome wide association studies (GWAS). Yet because of the complexities surrounding GWAS-based approaches and the lack of knowledge relating to the identity of rarer single nucleotide polymorphism (SNP) variants, it has proved difficult to discover independent causal variants associated with favourable immune control. This is especially true of the candidate variants within the HLA region where many of the recently proposed disease influencing SNPs appear to reflect linkage with ‘protective’ MHC class I alleles. Yet causal MHC-linked SNPs may exist but remain overlooked owing to the complexities associated with their identification. Here we focus on the ancestral TNFα promoter −237A variant (rs361525), shown historically to be in complete linkage disequilibrium with the ‘protective’ HLA-B*5701 allele. Many of the ancestral SNPs within the extended TNFα promoter have been associated with both autoimmune conditions and disease outcomes, however, the direct role of these variants on TNFα expression remains controversial. Yet, because of the important role played by TNFα in HIV-1 infection, and given the proximity of the −237 SNP to the core promoter, its location within a putative repressor region previously characterized in mice, and its disruption of a methylation-susceptible CpG dinucleotide motif, we chose to carefully evaluate its impact on TNFα production. Using a variety of approaches we now demonstrate that carriage of the A SNP is associated with lower TNFα production, via a mechanism not readily explained by promoter methylation nor the binding of transcription factors or repressors. We propose that the −237A variant could represent a minor causal SNP that additionally contributes to the HLA-B*5701-mediated ‘protective’ effect during HIV-1 infection.

Highlights

As demonstrated by both epidemiological findings and in functional studies the MHC locus represents a crucial host factor that strongly impacts the clinical course of HIV-1 infection [1,2]
We questioned if the single G to A polymorphism at position 2237 directly affected the activity of the TNFa promoter, and using a luciferase reporter system we evaluated the impact of both promoter polymorphisms on luciferase gene expression
This is best exemplified by a number of the candidate single nucleotide polymorphism (SNP) identified within the HLA region on Chromosome 6, whose proposed disease-influencing effects can be explained by their association with ‘protective’ MHC class

Summary

Introduction

As demonstrated by both epidemiological findings and in functional studies the MHC locus represents a crucial host factor that strongly impacts the clinical course of HIV-1 infection [1,2]. The importance of the MHC region has been re-affirmed in recent genome wide association (GWAS) studies in both Caucasian and African-American patient cohorts [3,4,5,6,7]. It remains unknown, at present, if specific single nucleotide polymorphisms (SNPs) within this region constitute additional variables that independently or synergistically associate with viral control. The 2237 SNP is located close to the proximal promoter, within a CpG dinucleotide motif, and maps to a region corresponding to a putative repressor site previously identified in mice [9]

Methods

Results

Conclusion