Abstract

Abstract KRAS, an oncogene responsible for at least one fourth of all human cancers, was discovered four decades ago. Yet, the first KRAS selective inhibitor could not be approved until 2021. In spite of this long-awaited breakthrough, approved KRAS inhibitors only block one of the multiple oncogenic isoforms, KRASG12C, an isoform primarily present in lung adenocarcinomas. Moreover, tumor resistance to these KRAS inhibitors is becoming a significant issue in the clinic (Awad et al., N Engl J Med, 2021; Zhao et al., Nature 2021). To provide experimental information that might help to improve current KRAS targeting strategies, we have generated two experimental mouse tumor models of Kras-driven lung adenocarcinoma to compare the therapeutic consequences of eliminating, instead of inhibiting, KRAS oncoproteins. In addition, we have interrogated the molecular mechanisms responsible for the induction of resistance in sotorasib treated KrasG12C/p53 mouse lung adenocarcinomas. We have also investigated the potential role of tampering with KRAS signaling pathways to develop alternative therapeutic strategies against KRAS mutant lung and pancreatic cancers. Previous studies have shown that ablation of RAF1, either by itself, or in combination with the expression of a CDK4 kinase dead isoform, induce significant levels of tumor regression in Kras/p53 driven-lung adenocarcinomas without inducing significant toxicities (Sanclemente et al. Cancer Cell, 2018; Esteban-Burgos et al., PNAS 2020). However, Kras/p53 driven-pancreatic ductal adenocarcinomas (PDAC) are completely resistant to RAF1 ablation, unless RAF1 is deleted in combination with EGFR, an upstream KRAS effector (Blasco et al, Cancer Cell 2019). Yet, ablation of RAF1 and EGFR only resulted in the complete regression of a fraction of PDAC tumors. We have now identified activation of STAT3 as the main mechanism responsible for the resistance of PDAC tumors to RAF1/EGFR ablation. Indeed, combined ablation of RAF1/EGFR/STAT3 completely blocked proliferation of all tested mouse tumor cell lines and organoids. Moreover, all tumors tested in orthotopic allograft models regressed completely with no evidence of tumor regression for at least two months of TMX exposure. Finally, I will discuss potential strategies to pharmacologically validate this triple therapeutic strategy as well as plans to combine it with current KRAS inhibitors. Citation Format: Mariano Barbacid. Targeting KRAS: Light at the end of the tunnel [abstract]. In: Proceedings of the AACR Special Conference: Targeting RAS; 2023 Mar 5-8; Philadelphia, PA. Philadelphia (PA): AACR; Mol Cancer Res 2023;21(5_Suppl):Abstract nr IA01.

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