Abstract
Genome-wide association studies (GWAS) of colorectal cancer (CRC) have led to the identification of a number of common variants associated with modest risk. Several risk variants map within the vicinity of TGFβ/BMP signaling pathway genes, including rs4939827 within an intron of SMAD7 at 18q21.1. A previous study implicated a novel SNP (novel 1 or rs58920878) as a functional variant within an enhancer element in SMAD7 intron 4. In this study, we show that four SNPs including novel 1 (rs6507874, rs6507875, rs8085824, and rs58920878) in linkage disequilibrium (LD) with the index SNP rs4939827 demonstrate allele-specific enhancer effects in a large, multi-component enhancer of SMAD7. All four SNPs demonstrate allele-specific protein binding to nuclear extracts of CRC cell lines. Furthermore, some of the risk-associated alleles correlate with increased expression of SMAD7 in normal colon tissues. Finally, we show that the enhancer is responsive to BMP4 stimulation. Taken together, we propose that the associated CRC risk at 18q21.1 is due to four functional variants that regulate SMAD7 expression and potentially perturb a BMP negative feedback loop in TGFβ/BMP signaling pathways.
Highlights
TGFb signaling has long been associated with colorectal cancer (CRC)
We propose that the CRC risk at chromosome 18q21.1 is due to the contributions of 4 functional variants in an enhancer affecting the expression of SMAD7, potentially leading to perturbed regulation of the BMP negative feedback loop in BMP/TGFb signaling pathways
Region Analysis The index single nucleotide polymorphism (SNP) rs4939827 associated with CRC at chromosome 18q21.1 lies within intron 4 of the SMAD7 gene
Summary
TGFb signaling has long been associated with colorectal cancer (CRC). In addition to canonical roles in the regulation of apoptosis, cell differentiation, and cell growth of intestinal epithelium, TGFb signaling is an important player in the immune response and inflammatory bowel disease, a risk factor for CRC (reviews [1,2,3]). Activation of either branch leads to the recruitment of R-SMADs, SMAD2/3 in the case of TGFb or SMAD1/5/8 in the case of BMPs, which form a complex with SMAD4. This complex directs the transcription of many target genes, including SMAD7. SMAD7, an inhibitory SMAD like SMAD6, in turn serves as a negative feedback regulator of TGFb and BMP signaling, in addition to acting as a crosstalk node with other pathways including TNF [4,5]
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