Abstract
BackgroundTumors frequently exhibit loss of tumor suppressor genes or allelic gains of activated oncogenes. A significant proportion of cancer susceptibility loci in the mouse show somatic losses or gains consistent with the presence of a tumor susceptibility or resistance allele. Thus, allele-specific somatic gains or losses at loci may demarcate the presence of resistance or susceptibility alleles. The goal of this study was to determine if previously mapped susceptibility loci for colorectal cancer show evidence of allele-specific somatic events in colon tumors.MethodsWe performed quantitative genotyping of 16 single nucleotide polymorphisms (SNPs) showing statistically significant association with colorectal cancer in published genome-wide association studies (GWAS). We genotyped 194 paired normal and colorectal tumor DNA samples and 296 paired validation samples to investigate these SNPs for allele-specific somatic gains and losses. We combined analysis of our data with published data for seven of these SNPs.ResultsNo statistically significant evidence for allele-specific somatic selection was observed for the tested polymorphisms in the discovery set. The rs6983267 variant, which has shown preferential loss of the non-risk T allele and relative gain of the risk G allele in previous studies, favored relative gain of the G allele in the combined discovery and validation samples (corrected p-value = 0.03). When we combined our data with published allele-specific imbalance data for this SNP, the G allele of rs6983267 showed statistically significant evidence of relative retention (p-value = 2.06×10−4).ConclusionsOur results suggest that the majority of variants identified as colon cancer susceptibility alleles through GWAS do not exhibit somatic allele-specific imbalance in colon tumors. Our data confirm previously published results showing allele-specific imbalance for rs6983267. These results indicate that allele-specific imbalance of cancer susceptibility alleles may not be a common phenomenon in colon cancer.
Highlights
Tumor suppressor genes and oncogenes have long been recognized to show copy number losses and gains in tumors, respectively [1,2]
The single nucleotide polymorphism (SNP) rs6983267 showed higher frequencies of relative loss of the nonrisk T allele compared to the risk G allele
We investigated 16 SNPs previously associated with colorectal cancer (CRC) risk for allele-specific imbalance using the SequenomH MassARRAY iPLEX Gold genotyping platform
Summary
Tumor suppressor genes and oncogenes have long been recognized to show copy number losses and gains in tumors, respectively [1,2]. Previous studies using mouse models show evidence that a subset of susceptibility loci for skin and colon cancer demonstrate strain-specific gains or losses consistent with these loci housing tumor promoting alleles or tumor suppressing alleles [3,4]. PTPRJ, a gene originally identified as a candidate tumor suppressor mapping to the mouse Scc locus, was shown to preferentially lose a suspected resistance allele in a subset of heterozygous human colorectal adenocarcinomas showing loss of heterozygosity at PTPRJ [3]. A significant proportion of cancer susceptibility loci in the mouse show somatic losses or gains consistent with the presence of a tumor susceptibility or resistance allele. The goal of this study was to determine if previously mapped susceptibility loci for colorectal cancer show evidence of allele-specific somatic events in colon tumors
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