[Molecular biology in clinical cancer research: the example of digestive cancers]

Abstract

Cancer is a DNA disease characterized by uncontrolled cell proliferation due to the accumulation of genetic alterations. Recent progress in molecular biology allowed the identification of markers potentially usefull for patients management through the identification of these genetic alterations and a best understanding of chemotherapy molecular targets. Several examples in digestive oncology underline the relevance of molecular biology in clinical research. If almost all colorectal cancers (CRC) correspond to the same histopathological type (adenocarcinoma), molecular biology allowed the identification of two different molecular mechanisms of colorectal carcinogenesis: chromosomal instability characterized by recurrent allelic losses on chromosomes 17, 5, 18, 8 and 22 that contribute to the inactivation of tumor suppressor genes, and genetic instability characterized by the instability of microsatellite loci due to an alteration of DNA mismatch repair leading to the accumulation of mutations in genes involved in the control of cell cycle and apoptosis. These data are potentially interesting for the management of CRC patients. Indeed, microsatellite instability seems not only to be a good prognostic factor but also a molecular factor that can predict response to adjuvant 5-fluorouracil based chemotherapy. Therapeutic clinical trials taking into account these molecular parameters are still going on. DNA microarray-based gene expression profiling technology that allows the simultaneous analysis of thousand of tumor genes represents also an interesting approach in oncology with the recent identification of a "genetic signature" as a risk factor of tumor recurrence in stage II CRC, a setting in which the benefit of adjuvant chemotherapy remains on debate. At last, a best understanding of chemotherapy molecular targets allowed the identification of genetic markers that can predict the response and/or the toxicity of anti-cancer drugs used in gastrointestinal cancers, which could be helpful in the future to propose for each patient a personalized treatment. Mutations that can predict the response of new target therapies such as the inhibitors of the c-KIT tyrosine kinase activity in gastrointestinal stromal tumors have also been found and will allow the selection of patients who can have benefit from these new therapeutic drugs.