Cancer research
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Susceptibility to pancreatic adenocarcinoma appears to be linked to germ-line mutations in genes causing various familial cancer syndromes. The objectives of this study were to estimate the proportion of unselected pancreatic cancer patients belonging to hereditary cancer syndrome families and to determine the frequency ofp16, BRCA1, BRCA2, hMSH2, and hMLH1 germ-line mutations in patients with a personal or family history of cancer. The study population consisted of 102 patients with histologically verified pancreatic adenocarcinoma, unselected for age, sex, family history, or ethnic origin. ⋯ No mutations were identified in patients in whom the sole risk factor was a family history of pancreatic cancer, and only one mutation was found among patients with early-onset disease. We conclude that known causes of genetic predisposition are an important risk factor in a small proportion of pancreatic cancer patients, especially if associated with a strong family history of syndromes associated with the disease. The lack of detectable germ-line mutations in most high- and intermediate-risk cases suggests that there are probably additional, as yet unidentified genes predisposing to this disease.
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Although initially reported as an androgen-repressed gene in the rat prostate, the functional role of testosterone-repressed prostate message-2 (TRPM-2) in apoptosis remains undefined. Inhibition of castration-induced apoptosis by calcium channel blocker treatment in androgen-dependent Shionogi tumors resulted in the prevention of TRPM-2 gene up-regulation, suggesting that TRPM-2 is not directly androgen-repressed, but is regulated by apoptotic stimuli. ⋯ We then tested the efficacy of antisense TRPM-2 oligodeoxynucleotide (ODN) therapy in the Shionogi tumor model and demonstrated that the systemic administration of antisense TRPM-2 ODNs in mice bearing Shionogi tumors after castration resulted in a more rapid onset of apoptosis and time to complete regression, as well as a significant delay of emergence of androgen-independent recurrent tumors compared to control ODN treatment. Collectively, these findings illustrate that TRPM-2 is an antiapoptotic rather than an androgen-repressed gene that confers resistance to androgen ablation and thereby helps accelerate the progression to androgen independence.