Abstract 1225: Co-inhibition of autophagy and MAPK signaling in RAS-driven cancers

Abstract

Abstract RASis mutated in a number of cancers, including KRAS-driven colorectal and pancreatic cancer, HRAS-driven bladder cancer, and NRAS-driven melanoma, all of which result in downstream activation of the RAF>MEK>ERK (MAPK) and PI3K>AKT signaling pathways. Most RAS GTPases cannot be targeted directly, and strategies blocking both MAPK and PI3K signaling simultaneously are limited by high toxicity and compensatory signaling mechanisms. Interestingly, oncogene-activated MAPK or PI3K signaling pathways are reasonably well described orchestrators of metabolic transformation through multiple pathways. Our lab has recently shown that autophagy,a conserved metabolic process of self-digestion that recycles intracellular components, is increased in KRAS-driven pancreatic ductal adenocarcinoma (PDA) upon MAPK pathway inhibition. We further showed that co-inhibition of autophagy and MEK1/2, a MAPK component, leads to tumor regression of patient-derived PDA xenografts in mice. Our proposed combination therapy has recently been translated into a phase I/II clinical trial for PDA patients with advanced disease. Our most recent data show that inhibition of RAS>RAF>MEK>ERK signaling also results in induction of autophagy in other RAS-driven cancers, including KRAS-driven colorectal cancer, HRAS-driven bladder cancer and NRAS-driven melanoma. Furthermore, ourin vivodata demonstrate a robust regression of tumors upon combined inhibition of autophagy and MEK1/2 in engrafted KRAS-driven colorectal cancer cells xenografted in mice. Patient data from two KRAS-driven colorectal cancer patients, who were recently treated off-label, indicated clinical responses to the combination treatment co-targeting autophagy and MEK1/2. Altogether, these data suggest that co-inhibition of autophagy and oncogenic signaling may represent a potential new treatment strategy for multiple RAS-driven cancer types. Future experiments aim for a better mechanistic understanding of the combination treatment co-targeting autophagy and oncogenic signaling, with the objective to propose novel therapeutic strategies for cancer patients with RASmutations. Citation Format: Mona Foth, Conan Kinsey, Sophia Schuman, Benjamin Battistone, Emilio Cortes Sanchez, David Kircher, Bryan Welm, Sheri Holmen, Martin McMahon. Co-inhibition of autophagy and MAPK signaling in RAS-driven cancers [abstract]. In: Proceedings of the Annual Meeting of the American Association for Cancer Research 2020; 2020 Apr 27-28 and Jun 22-24. Philadelphia (PA): AACR; Cancer Res 2020;80(16 Suppl):Abstract nr 1225.