Abstract
KRAS is the most commonly altered oncogene of the RAS family, especially the G12C mutant (KRASG12C), which has been a promising drug target for many cancers. On the basis of the bicyclic pyridopyrimidinone framework of the first-in-class clinical KRASG12C inhibitor AMG510, a scaffold hopping strategy was conducted including a F-OH cyclization approach and a pyridinyl N-atom working approach leading to new tetracyclic and bicyclic analogues. Compound 26a was identified possessing binding potency of 1.87μM against KRASG12C and cell growth inhibition of 0.79μM in MIA PaCa-2 pancreatic cancer cells. Treatment of 26a with NCI-H358cells resulted in down-regulation of KRAS-GTP levels and reduction of phosphorylation of downstream ERK and AKT dose-dependently. Molecular docking suggested that the fluorophenol moiety of 26a occupies a hydrophobic pocket region thus forming hydrogen bonding to Arg68. These results will be useful to guide further structural modification.
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