Abstract

KRAS mutations cause a quarter of cancer mortality and most are undruggable. Several inhibitors of the MAPK pathway are FDA approved but poorly tolerated at dosages required to adequately extinguish RAS/RAF/MAPK signaling. We found that oncogenic KRAS signaling induces ferrous iron (Fe2+) accumulation early in and throughout KRAS-mediated transformation. We used an FDA-approved MEK inhibitor to produce a prototypical Ferrous Iron-Activatable Drug Conjugate (FeADC) which achieved potent MAPK blockade in tumor cells while sparing normal tissues. This innovation allowed sustainable, effective treatment of tumor bearing animals, with tumor-selective drug activation producing superior systemic tolerability. Ferrous iron accumulation is an exploitable feature of KRAS transformation and FeADCs hold promise for improving treatment of KRAS-driven solid tumors.