Inhibition of ULK1/2 and KRAS^G12Ccontrols tumor growth in preclinical models of lung cancer

Mutational activation ofKRASoccurs commonly in lung carcinogenesis and, with the recent FDA approval of covalent inhibitors of KRAS^G12Csuch as sotorasib or adagrasib, KRAS oncoproteins are important pharmacological targets in non-small cell lung cancer (NSCLC). However, not all KRAS^G12C-driven NSCLCs respond to these inhibitors, and the emergence of drug resistance in those patients that do respond can be rapid and pleiotropic. Hence, based on a backbone of covalent inhibition of KRAS^G12C, efforts are underway to develop effective combination therapies. Here we report that inhibition of KRAS^G12Csignaling increases autophagy in KRAS^G12Cexpressing lung cancer cells. Moreover, the combination of DCC-3116, a selective ULK1/2 inhibitor, plus sotorasib displays cooperative/synergistic suppression of human KRAS^G12C-driven lung cancer cell proliferationin vitroand superior tumor controlin vivo. Additionally, in genetically engineered mouse models of KRAS^G12C-driven NSCLC, inhibition of either KRAS^G12Cor ULK1/2 decreases tumor burden and increases mouse survival. Consequently, these data suggest that ULK1/2-mediated autophagy is a pharmacologically actionable cytoprotective stress response to inhibition of KRAS^G12Cin lung cancer.