Compensatory pathways induced by MEK inhibition are effective drug targets for combination therapy against castration resistant prostate cancer
Menée à l'aide de xénogreffes, cette étude identifie des voies de signalisation compensatrices induites par un inhibiteur de MEK et suggère qu'elles pourraient servir de cibles pour un traitement combiné du cancer de la prostate résistant à la castration
Targeted therapies have often given disappointing results when used as single agents in solid tumors, suggesting the importance of devising rational combinations of targeted drugs. We hypothesized that construction of such combinations could be guided by identification of growth and survival pathways whose activity or expression become upregulated in response to single-agent drug treatment. We mapped alterations in signaling pathways assessed by gene array and protein phosphorylation to identify compensatory signal transduction pathways in prostate cancer xenografts treated with a MEK inhibitor, PD325901. In addition to numerous components of the ERK signaling pathway, components of the IKK, Hedgehog, and PI3 Kinase/Akt/mTOR pathways were up regulated following treatment with PD325901. Combinations of PD325901 with inhibitors of any one of these upregulated pathways provided synergistically greater growth inhibition of in vitro cell growth and survival than the individual drugs alone. Thus, the identification of compensatory signal transduction pathways paves the way for rational combinatorial therapies for the effective treatment of prostate cancer.
http://mct.aacrjournals.org/content/early/2011/06/28/1535-7163.MCT-10-1033.abstract