Développement des inhibiteurs de farnésyl transférase comme agents anticancéreux

Ras proteins belong to the monomeric GTPases familly. They control cell growth, differentiation, proliferation, and survival. Ras mutations are frequently found in human cancers and play a fundamental role in tumorigenesis. Ras requires localization to the plasma membrane to exert its oncogenic effects. This subcelllular localization is dependent of protein farnesylation which is a post translational modification catalysed by the farnesyl transferase enzyme. Farnesyl transferase Inhibitors (FTI) were then designed ten to twelve years ago to inhibit ras processing and consequently the growth of ras mutated tumor. Preclinical data show that FTIs inhibit cell proliferation and survival in vitro and in vivo of a wide range of cancer cell lines, many of which contain wild type ras suggesting that mutated Ras is not the only target of the FTIs effects. Four FTIs went then through clinical trials and three of then are still developed in the clinic. Phase I et II clinical trials confirmed a relevant antitumor activity and a low toxicity. Phase III clinical trials are currently undergoing for both solid and hematologic tumors. The expected results should allow to define the position of FTIs as anticancer drugs, particularly in combination with conventional chemotherapy, hormone therapy, radiotherapy or any other new targeted compound.