The KRAS proto-oncogene is one of the most critical genes in cancer, yet it has also proven to be among the most elusive. Nearly all (98%) of KRAS missense mutations occur in codons 12 or 13, which leads to constitutive KRAS activation and promotion of numerous cancer hallmarks. Although kinase inhibitors have revolutionized treatment of some subsets of cancers driven by other molecular aberrations, the lack of such success in mutant KRAS-driven cancers has led KRAS itself being widely regarded as undruggable. Although there are G12C inhibitors currently being developed, these therapies are limited to only one KRAS mutation, accounting for only ~12% of KRAS mutations, and therefore limited in therapeutic scope. We have established a C Corporation, EnFuego Therapeutics, Inc. to address the growing number of undruggable targets in cancer by using RNA interference (RNAi)-based therapeutics. RNAi is attractive because it enables silencing of cancer targets that cannot be inhibited using conventional approaches. We have several lines of evidence that our lead drug, EFTX- 001, potently silences the majority of missense mutations and spares the WT sequence. Using an FDA-approved lipid nanoparticle (LNP) delivery system, we have already found impressive therapeutic potential for delivering EFTX-001 in lung cancer models with no detectable toxicity. Taken together, key questions arise, such as: 1) Which KRAS missense mutations are most potently targeted by EFTX-001? 2) What toxic effects does LNP- EFTX-001 have on healthy adult tissue (e.g. liver, kidney and bone marrow)? 3) What is the therapeutic index of LNP-EFTX-001 in KRAS-dependent cancer models? We hypothesize that LNP-EFTX-001 will potently silence multiple clinically-relevant KRAS mutations in lung and colon cancers while sparing the wild-type sequence; consequently, inhibiting tumor progression with a highly satisfactory toxicity profile. The objectives of this proposal are: 1) to define how potently EFTX-001 targets the most common KRAS mutations while sparing the WT sequence, 2) to evaluate the effects of EFTX-001 on MAP kinase signaling and cell viability, 3) use in vitro and in vivo models to determine the therapeutic index of silencing mutant versus WT KRAS in cancer and adult tissues, respectively.
Public Health Relevance Statement: Project Summary: Our cancer target, mutated KRAS, is currently regarded in the oncology field as the biggest undruggable oncogene. We have filed internationally in the U.S. and Europe a patent that allows us to specifically target mutated KRAS in codons 12 and 13, which account for 98% of all KRAS mutations in cancer, and our lead candidate, EFTX-001, potently silences these mutations, spares the wild-type sequence, and thus is an ideal drug for precision medicine. This proposal will focus on defining which KRAS mutations are most potently targeted by EFTX-001 to build a larger portfolio of in vivo efficacy in lung and colon cancers, and to determine the potential toxicity associated with our approach.
Project Terms: Accounting; Address; Adult; base; Biological Assay; Bone Marrow; Cancer Etiology; Cancer Model; Cell Line; Cell Survival; Cessation of life; Clinical Trials; clinically relevant; Codon Nucleotides; Collaborations; Colon; Colon Carcinoma; Development; Dose; Dose-Limiting; efficacy study; Europe; experimental study; FDA approved; first-in-human; Formulation; Genes; Goals; Hepatocyte; human disease; In Vitro; in vivo; in vivo evaluation; in vivo Model; inhibitor/antagonist; International; Kidney; kidney cell; kinase inhibitor; KRAS2 gene; Lead; lead candidate; Legal patent; Licensing; lipid nanoparticle; Liver; Lung Adenocarcinoma; Malignant neoplasm of lung; Malignant neoplasm of pancreas; Malignant Neoplasms; Messenger RNA; Missense Mutation; Mitogen-Activated Protein Kinases; Modeling; Molecular Abnormality; Mus; mutant; Mutate; Mutation; nanoparticle delivery; Neoplasm Metastasis; Oncogenes; Oncology; Pharmaceutical Preparations; Phase; precision drugs; precision medicine; Proto-Oncogenes; Research; RNA delivery; RNA Interference; Signal Transduction; Small Business Innovation Research Grant; success; System; systemic toxicity; Technology; Testing; Therapeutic; Therapeutic Index; Thermodynamics; Tissues; Toxic effect; Treatment Efficacy; tumor; tumor progression; Universities; Work