Abstract
BackgroundThe Cub and Sushi Multiple Domains 1 (CSMD1) gene, located on the short arm of chromosome 8, codes for a type I transmembrane protein whose function is currently unknown. CSMD1 expression is frequently lost in many epithelial cancers. Our goal was to characterize the relationships between CSMD1 somatic mutations, allele imbalance, DNA methylation, and the clinical characteristics in colorectal cancer patients.MethodsWe sequenced the CSMD1 coding regions in 54 colorectal tumors using the 454FLX pyrosequencing platform to interrogate 72 amplicons covering the entire coding sequence. We used heterozygous SNP allele ratios at multiple CSMD1 loci to determine allelic balance and infer loss of heterozygosity. Finally, we performed methylation-specific PCR on 76 colorectal tumors to determine DNA methylation status for CSMD1 and known methylation targets ALX4, RUNX3, NEUROG1, and CDKN2A.ResultsUsing 454FLX sequencing and confirming with Sanger sequencing, 16 CSMD1 somatic mutations were identified in 6 of the 54 colorectal tumors (11%). The nonsynonymous to synonymous mutation ratio of the 16 somatic mutations was 15∶1, a ratio significantly higher than the expected 2∶1 ratio (p = 0.014). This ratio indicates a presence of positive selection for mutations in the CSMD1 protein sequence. CSMD1 allelic imbalance was present in 19 of 37 informative cases (56%). Patients with allelic imbalance and CSMD1 mutations were significantly younger (average age, 41 years) than those without somatic mutations (average age, 68 years). The majority of tumors were methylated at one or more CpG loci within the CSMD1 coding sequence, and CSMD1 methylation significantly correlated with two known methylation targets ALX4 and RUNX3. C:G>T:A substitutions were significantly overrepresented (47%), suggesting extensive cytosine methylation predisposing to somatic mutations.ConclusionsDeep amplicon sequencing and methylation-specific PCR reveal that CSMD1 alterations can correlate with earlier clinical presentation in colorectal tumors, thus further implicating CSMD1 as a tumor suppressor gene.
Highlights
Colorectal cancer is the third most common cancer with approximately 1 million annual cases worldwide [1]
Activating mutations in the adenomatous polyposis coli (APC), Kirsten ras (KRAS), and Phosphatidylinositol 3-kinase (PIK3CA) genes are very common in colorectal cancers [4]
We sequenced a total of 54 colorectal tumors equaling to 1.26 MB of Cub and Sushi Multiple Domains 1 (CSMD1) CDS DNA
Summary
Colorectal cancer is the third most common cancer with approximately 1 million annual cases worldwide [1]. By assuming that all silent (synonymous) mutations are passengers, the background rate of somatic mutations in colorectal cancers has been approximated to be 1 mutation per megabase [12]. Genes that accumulate mutations, yet are under no selective pressure, have an expected nonsynonymous to synonymous (NS/S) ratio of approximately 2:1 This expected ratio is based upon the first two nucleotide positions in the codon dictating the encoded amino acid and the third ‘‘wobble’’ position allowing for codon redundancy. Genes with an overrepresentation of non-synonymous mutations have a NS/S ratio that is statistically significantly higher than the expected 2:1 and can confidently be assumed to be under positive selective pressure to change the amino acid sequence during the process of tumor evolution [13]. Our goal was to characterize the relationships between CSMD1 somatic mutations, allele imbalance, DNA methylation, and the clinical characteristics in colorectal cancer patients
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