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Oncogenic KRAS is dependent upon an EFR3A-PI4KA signaling axis for potent tumorigenic activity

Hema Adhikari, Walaa E. Kattan, S. Kumar, Pei Zhou, John F. Hancock, Christopher M. Counter

2021Nature Communications53 citationsDOIOpen Access PDF

Abstract

Abstract The HRAS , NRAS , and KRAS genes are collectively mutated in a fifth of all human cancers. These mutations render RAS GTP-bound and active, constitutively binding effector proteins to promote signaling conducive to tumorigenic growth. To further elucidate how RAS oncoproteins signal, we mined RAS interactomes for potential vulnerabilities. Here we identify EFR3A, an adapter protein for the phosphatidylinositol kinase PI4KA, to preferentially bind oncogenic KRAS. Disrupting EFR3A or PI4KA reduces phosphatidylinositol-4-phosphate, phosphatidylserine, and KRAS levels at the plasma membrane, as well as oncogenic signaling and tumorigenesis, phenotypes rescued by tethering PI4KA to the plasma membrane. Finally, we show that a selective PI4KA inhibitor augments the antineoplastic activity of the KRAS G12C inhibitor sotorasib, suggesting a clinical path to exploit this pathway. In sum, we have discovered a distinct KRAS signaling axis with actionable therapeutic potential for the treatment of KRAS-mutant cancers.

Topics & Concepts

KRASHRASNeuroblastoma RAS viral oncogene homologSignal transductionEffectorCancer researchCarcinogenesisBiologyPI3K/AKT/mTOR pathwayCell biologySignal transducing adaptor proteinKinaseIdelalisibPhenotypeMutationCancerGeneGeneticsLeukemiaIbrutinibChronic lymphocytic leukemiaCellular transport and secretionProtein Kinase Regulation and GTPase SignalingCalcium signaling and nucleotide metabolism