Abstract
The nuclear factor-kappaB (NF-kappaB) family of transcription factors regulates the expression of a variety of genes involved in apoptosis and immune response. We examined relationships between genotypes at five NF-kappaB subunits (NFKB1, NFKB2, REL, RELA, and RELB) and variable expression levels of 15 NF-kappaB regulated proteins with heritability greater than 0.40: BCL2A1, BIRC2, CD40, CD44, CD80, CFLAR, CR2, FAS, ICAM1, IL15, IRF1, JUNB, MYC, SLC2A5, and VCAM1. SNP genotypes and expression phenotypes from pedigrees of Utah residents with ancestry from northern and western Europe were provided by Genetic Analysis Workshop 15 and supplemented with additional genotype data from the International HapMap Consortium. We conducted association, linkage, and family-based association analyses between each candidate gene and the 15 heritable expression phenotypes. We observed consistent results in association and linkage analyses of the NFKB1 region (encoding p50) and levels of FAS and IRF1 expression. FAS is a cell surface protein that also belongs to the TNF-receptor family; signals through FAS are able to induce apoptosis. IRF1 is a member of the interferon regulatory transcription factor family, which has been shown to regulate apoptosis and tumor-suppression. Analyses in the REL region (encoding c-Rel) revealed linkage and association with CD40 phenotype. CD40 proteins belong to the tumor necrosis factor (TNF)-receptor family, which mediates a broad variety of immune and inflammatory responses. We conclude that variation in the genes encoding p50 and c-Rel may play a role in NF-kappaB-related transcription of FAS, IRF1, and CD40.
Highlights
Family-based association tests (FBAT) Analyses using Genetic Analysis Workshop 15 (GAW15)-provided genotypes surrounding NFKB1 suggested an association between rs721412 at 111.3 cM and FAS, IRF1 expression
Using GAW15 data in the RELA region, we found that genotypes of rs1867791 at 44.9 cM had FBAT p-values of 0.02
As an assessment of these methods, we concluded that haplotype analysis combined with single-single-nucleotide polymorphisms (SNPs) analysis, family-based association tests, and linkage analysis has helped inform our understanding of the NF-κB pathway
Summary
The nuclear factor-kappaB (NF-κB) family of transcription factors regulates the expression of hundreds of genes including pro-inflammatory and apoptosis genes [1,2,3]. Transcription of these genes is activated by five NF-κB subunits (NFKB1 encoding p50, NFKB2 encoding p52, REL encoding c-Rel, RELA encoding p65, and RELB encoding Rel-B). Pedigree members had genotypes on ~2882 single-nucleotide polymorphisms (SNPs) spread throughout the genome and ~3554 phenotypes consisting of expression levels from lymphoblastoid cells hybridized onto Affymetrix Genome Focus Arrays [4]. Forty-two participants (14 trios) were studied by the International HapMap Consortium; additional genotype data were available on selected individuals (including 28 unrelated individuals) in families 1340, 1341, 1345, 1346, 1347, 1362, 1408, 1416, and 1454 [5,6]
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