Development of combination therapies to maximize the impact of KRAS-G12C inhibitors in lung cancer

Journal Article: Science Translational MedicineYear Published: (2019) Volume Number: 11, Article Number: eaaw7999

Authors

Molina-Arcas,Miriam; Moore,Christopher; Rana,Sareena; van Maldegem,Febe; Mugarza,Edurne; Romero-Clavijo,Pablo; Herbert,Eleanor; Horswell,Stuart; Li,Lian-Sheng; Janes,Matthew R; Hancock,David C; Downward,Julian

KRAS represents an excellent therapeutic target in lung cancer, the most commonly mutated form of which can now be blocked using KRAS-G12C mutant-specific inhibitory trial drugs. Lung adenocarcinoma cells harboring KRAS mutations have been shown previously to be selectively sensitive to inhibition of mitogen-activated protein kinase kinase (MEK) and insulin-like growth factor 1 receptor (IGF1R) signaling. Here, we show that this effect is markedly enhanced by simultaneous inhibition of mammalian target of rapamycin (mTOR) while maintaining selectivity for the KRAS-mutant genotype. Combined mTOR, IGF1R, and MEK inhibition inhibits the principal signaling pathways required for the survival of KRAS-mutant cells and produces marked tumor regression in three different KRAS-driven lung cancer mouse models. Replacing the MEK inhibitor with the mutant-specific KRAS-G12C inhibitor ARS-1620 in these combinations is associated with greater efficacy, specificity, and tolerability. Adding mTOR and IGF1R inhibitors to ARS-1620 greatly improves its effectiveness on KRAS-G12C mutant lung cancer cells in vitro and in mouse models. This provides a rationale for the design of combination treatments to enhance the impact of the KRAS-G12C inhibitors, which are now entering clinical trials.