Lynch syndrome is an inherited cancer syndrome caused by germline mutations in mismatch repair (MMR) genes MLH1, MSH2, MSH6 and PMS2. LS predisposes to high risk of early-onset colorectal, endometrial and other tumors. Patients with Lynch syndrome have also been shown to have an elevated risk for pancreatic cancer (PC). In this study, we aimed to estimate the frequency of suspected Lynch syndrome among a series of 135 PC patients. Further, we wanted to determine the frequency of MMR gene mutations in the suspected Lynch syndrome cases. We also aimed to verify the pathogenicity of any novel non-truncating variants we might detect with a functional assay. Based on personal and/or familial cancer history, 19 patients were classified as suspected Lynch syndrome cases. DNA material for mutation analysis was available for eleven of them. Four patients were found to carry a total of five MLH1 or MSH2 variants. Of these, MSH2-Q402X, MSH2-G322D, and MLH1-K618A had been previously reported, while the MSH2-E205Q and MSH2-V367I variants were novel. MSH2-Q402X is a known stop mutation and reported here for the first time here in association with PC. MLH1-K618A was found in the unaffected branch of a kindred, suggesting that it may be a polymorphism or a low penetrance variant. MSH2-G322D likely does not cause a MMR defect, although this variant has also been associated with breast cancer as indeed seen in our patient. The novel variants MSH2-E205Q and MSH2-V367I were found in the same patient. Both novel variants were however functional in the applied MMR assay. Our findings suggest that only a small subset of pancreatic cancer patients carry pathogenic MMR mutations.
Mutation-predicting models can be useful when deciding on the genetic testing of individuals at risk and in determining the cost effectiveness of screening strategies at the population level. The aim of this study was to evaluate the performance of a newly developed genetic model that incorporates tumor microsatellite instability (MSI) information, called the AIFEG model, and in predicting the presence of mutations in MSH2 and MLH1 in probands with suspected hereditary non-polyposis colorectal cancer. The AIFEG model is based on published estimates of mutation frequencies and cancer penetrances in carriers and non-carriers and employs the program MLINK of the FASTLINK package to calculate the proband's carrier probability. Model performance is evaluated in a series of 219 families screened for mutations in both MSH2 and MLH1, in which 68 disease-causing mutations were identified. Predictions are first obtained using family history only and then converted into posterior probabilities using information on MSI. This improves predictions substantially. Using a probability threshold of 10% for mutation analysis, the AIFEG model applied to our series has 100% sensitivity and 71% specificity.
Our results suggest that the prognosis of hereditary non-polyposis colorectal cancer-related colorectal carcinoma patients depends on the associated constitutional mismatch repair genotype.
Allelic variants of several genes are increasingly recognized as susceptibility factors in age-related macular degeneration (AMD). Because of its metabolic characteristics the macula is sensitive to oxidative damage, and supplementation with antioxidants has been shown to be effective in slowing the progression of disease in AMD patients. The oxisterol-binding-protein (OSBP2) gene is expressed mainly in the retinal pigmented epithelium underlying the macular region. Its product specifically binds and transports oxisterols, the cytotoxic effects of which may be involved in macular damage. The aim of this study was to search for allelic variants of OSBP2 gene, as well as to evaluate several risk factors in 24 patients with AMD; 17 with nonexudative (NE) and 7 with neovascular (NV) form. Total cholesterol was elevated in 66% of the patients, high-density lipoprotein (HDL) cholesterol was reduced in 12%; vitamin A or vitamin E deficiency was not observed. OSBP2 gene analysis was performed in AMD patients and in 110 control subjects by single-stranded conformational polymorphism (SSCP) analysis followed by direct sequencing. Six allelic variants were detected: 2 nonpolymorphic unique exonic variants in 2 AMD subjects and 4 polymorphic variants (2 exonic and 2 intronic). These data indicate a possible role of OSBP2 gene in the pathogenesis of oxidative damage to the macula induced by oxysterols in AMD patients.
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