Preferential amplification of AURKA 91A (Ile31) in familial colorectal cancers.

In a previous genome-wide effort we identified a novel candidate colorectal cancer (CRC) susceptibility locus by allelotyping tumors from familial and sporadic CRC patients. Familial cases harbored amplifications significantly more frequently in 20q13, indicating the presence of a putative oncogene within the amplicon. A kinase-encoding AURKA is located in 20q13 and recently a Phe31Ile (91T > A) change of AURKA was suggested to function as a low penetrance tumor-susceptibility factor. Association analysis suggested an increased cancer risk in 91A homozygous individuals. In addition, tumors from heterozygous individuals showed preferential amplification of 91A allele and were more aneuploid, important findings that have not been confirmed to date. To evaluate whether AURKA is a target for the observed 20q13 amplifications, we assessed the frequency of the 91T > A change and possible preferential amplification of either allele in 125 familial and 110 sporadic Finnish CRC cases. We observed a preferential amplification of 91A with a significant difference between the alleles in the familial group (p = 0.03). Furthermore, a trend between younger age at diagnosis and genotype in the familial group was observed (p = 0.06). Other possible AURKA germline variants were screened by sequencing 10 of the familial cases. The frequency and amplification patterns of the observed variants were assessed in a larger set of familial and sporadic CRC but no evidence on tumorigenic role of the other sequence alterations was obtained. Thus our results support the importance of AURKA 91A as a low penetrance CRC susceptibility factor.

Mutations in two short noncoding mononucleotide repeats in most microsatellite-unstable colorectal cancers.

DNA mismatch repair (MMR)-deficient cells typically accumulate mutations in short repetitive DNA tracts. This microsatellite instability (MSI) facilitates malignant transformation when affecting genes with growth-related and caretaker functions. To date, several putative MSI target genes have been proposed mainly based on high mutation frequency within their coding regions. However, some intronic repeat mutations have also been suggested to associate with MSI tumorigenesis, indicating the need for additional analyses on noncoding repeats. Here we have analyzed an intronic T9 repeat of semenogelin I (SEMG1) and report mutation frequencies of 51% (75 of 146) and 62% (8 of 13) in MMR-deficient primary colorectal cancers and cell lines, respectively. The putative effect of the SEMG1 mutations was assessed by RNA and protein level analyses, but no differences were detected between colorectal cancer cell lines with different SEMG1 status. Subsequently, the general background mutation frequency of MSI colorectal cancers was assessed by screening for intergenic T9 repeat alterations. One of 10 examined repeats was mutated in 70% (102 of 145) of the colorectal cancers evaluated. The frequencies observed here are notably higher than previously published in noncoding repeats shorter than 10 bp in MMR-deficient primary tumors. Our results indicate that high mutation frequencies, similar or higher than those observed in proposed and approved target genes, can be detected in repeat tracts of MSI tumors without any apparent selection pressure. These data call for urgent and thorough large-scale evaluation of mutation frequencies in neutral short repetitive sequences in MMR-deficient tumors.

Proportion and phenotype of MYH-associated colorectal neoplasia in a population-based series of Finnish colorectal cancer patients.

Recessively inherited mutations in the base excision repair gene MYH have recently been associated with predisposition to colorectal adenomas and cancer in materials selected for occurrence of multiple adenomas. In particular, variants Y165C and G382D have been shown to play a role in Caucasian patients. To evaluate the contribution of MYH mutations to colorectal cancer burden on the population level, and to examine the MYH-associated phenotype in an unselected series of colorectal cancer patients, we determined the frequencies of Y165C and G382D MYH mutations in a population-based series of 1042 Finnish colorectal cancer patients. Four (0.4%) patients had both MYH alleles mutated. Although all these patients had multiple adenomatous polyps, the phenotypes tended to be less extreme than in previous studies on selected cases. The lowest number of colorectal adenomas at the time of cancer diagnosis was five. Cases with one mutant MYH allele were subjected to sequencing of all exons to detect possible Finnish founder mutations, but no additional changes were detected. The Y165C and G382D variants were not present in 424 Finnish cancer-free controls showing that MYH mutations are not enriched in the population. As evaluated against national Finnish Polyposis Registry data MYH-associated colorectal cancer appears to be as common as colorectal cancer associated with familial adenomatous polyposis.

Little evidence for involvement of MLH3 in colorectal cancer predisposition.

Mutations in the DNA MMR genes MSH2, MLH1, MSH6 and PMS2 underlie a large subset of HNPCC cases, and a hallmark of the tumors is MSI. In many HNPCC families, however, a causative mutation has not been found. Therefore, the involvement of additional, thus far unknown, genes in MSI as well as MSS colorectal tumor predisposition is possible. The role of a relatively recently cloned MMR gene, MLH3, in familial CRC has been studied; but the results appear somewhat conflicting. To further evaluate the role of MLH3 in CRC predisposition, we analyzed 30 Finnish CRC cases for germline mutations by sequencing. These cases were selected from a large series of Finnish CRC patients, to match features previously proposed to associate with MLH3 germline defects. We found 5 missense variants, 4 of which were also found in Finnish cancer-free controls. The only remaining variant does not appear to be an attractive candidate for a disease-associated mutation because the amino acid change is located outside the conserved residues. We also screened for the previously reported variants, including a frameshift change, the most likely pathogenic MLH3 mutation observed so far. The frameshift was not present in the 30 CRC cases or in 700 cancer-free controls. While it is a difficult task to exclude a role of MLH3 in HNPCC, our study could not confirm a role for MLH3 in CRC predisposition.

Genome-wide allelotyping of 104 Finnish colorectal cancers reveals an excess of allelic imbalance in chromosome 20q in familial cases.

We have allelotyped a series of 104 Finnish colorectal cancers (CRCs) using 372 polymorphic markers spaced, on average, at 10 cM intervals, and have made a comparison of the differences in the frequency of allelic imbalance (AI) between familial and sporadic cases. Differences in the frequency of allelic imbalance (loss of heterozygosity or amplification) at a number of loci were detected and these were evaluated through analysis of additional series of cancers using specific markers. The most consistent difference was observed at chromosome 20q13.1-13.3 characterized by a two fold difference between familial and nonfamilial disease in a total of 99 familial and 186 sporadic Finnish cases. This difference was not observed in a UK set of 67 familial and 96 sporadic CRCs. The genome-wide effort resulted in a large data set giving clues to the location of putative CRC predisposition genes in the genome. The approach provides an alternative strategy for detecting cancer predisposition genes solely reliant on the molecular analysis of single cases obviating the requirement to collect multiple samples from families.