Abstract
RAS genes encode small GTPases essential for mammalian cell proliferation, differentiation, and survival. RAS gene mutations are associated with 20% to 30% of all human cancers. Based on earlier reports of extremely high Ras binding affinities for GTP, Ras proteins were previously considered undruggable. Using three independent techniques, we report binding affinities of K-Ras and several K-Ras mutants for GTP in the 250 to 400 nmol/L range, orders of magnitude lower than previously reported (∼10 pmol/L). This discovery suggests that K-Ras and other small-GTPase proteins may indeed be druggable targets. We identified more than 400 small molecules that compete non-covalently with GTP binding to K-Ras. Focusing on two inhibitors, we demonstrate the inhibition of K-Ras in downstream signaling and cellular proliferation in human pancreatic and non-small cell lung cancer cells expressing wild-type or mutant K-Ras. These two compounds represent novel pan-Ras superfamily inhibitors as they also inhibited GTP binding to other members such as RAB5A and RAB35.