469 Background: With the aim to identify genetic markers of hereditary nonpolyposis colorectal cancer (HNPCC), we applied tiling BAC array-based comparative genomic hybridization (aCGH) to 46 HNPCC-associated colorectal cancer. Methods: 32 k iling BAC arrays were used to generate high-density genomic profiles. Tumors were selected through a case-control design with half of the tumors derived from individuals with disease-predisposing mismatch repair gene mutations and the reminder from phenotypic HNPCC families without identified mutations. In addition, an equal number of sporadic tumors were used for comparison. Results: Tumors with disease-predisposing germline mutations showed frequent gains of chromosomes 1p (39%), 17 (43%), 19 (57%) and 22q (30%). HNPCC associated tumors without mutations did as a group have more complex alterations with the most frequent changes being gains of 20q (70%), 19 (35%), 17 (26%) and loss of 18 (39%). Gains of 1p and 20q and loss of chromosome 18 were identified as significant discriminators between HNPCC tumors with/without germline MMR gene mutations. Conclusions: The aCGH profiles of HNPCC-associated colorectal cancer suggest that specific gains and losses may be used to distinguish between tumors with/without germline mismatch repair gene mutations. No significant financial relationships to disclose.
Muir-Torre Phenotype Has a Frequency of DNA Mismatch-Repair-Gene Mutations Similar to That in Hereditary Nonpolyposis Colorectal Cancer Families Defined by the Amsterdam Criteria
