Abstract 1658: CFT1946, a potent, selective BRAF V600X mutant-specific degrader demonstrates superior activity as a single agent to clinically approved BRAF inhibitors and standard of care combinations in preclinical models of BRAF V600X melanoma, CRC, NSCLC, and brain metastasis

Abstract

Abstract Activating mutations in BRAF at residue V600 (typically V600E) lead to dysregulation of the MAPK pathway and occur in approximately 8% of all human cancers including 60% of melanoma, up to 12% of colorectal cancer (CRC), and 4% of NSCLC. Currently approved BRAF inhibitors (BRAFi) are selective for BRAF V600X mutant proteins and are typically used in combination with MEK inhibitors (MEKi) in melanoma and NSCLC, or anti-EGFR antibodies such as cetuximab in CRC. However, their activity is limited by primary or acquired resistance often mediated by RAF dimer-inducing mechanisms. Furthermore, progression of BRAF V600X melanoma after BRAFi/MEKi treatment frequently involves brain metastasis, and currently approved BRAFi have relatively poor brain penetration. CFT1946 is a potent, orally bioavailable, cereblon-based BiDACTM degrader that selectively degrades BRAF V600X mutant protein and is currently under investigation in a Phase I clinical trial. CFT1946 has the potential to overcome limitations of clinically approved BRAFi, as degradation of BRAF V600X should abrogate RAF dimer-driven resistance and paradoxical activation. Indeed, we have previously demonstrated that CFT1946 is efficacious in an A375 BRAF V600E/NRAS Q61K xenograft model of BRAFi resistant melanoma. Here we substantially expand our preclinical characterization of CFT1946 across multiple models of BRAF V600X-driven cancers including BRAF V600X-driven CRC and NSCLC, additional BRAFi-resistant melanoma models, and a brain metastatic melanoma model. Single agent CFT1946 outperformed the SOC encorafenib + cetuximab combination in a panel of BRAF-V600X CRC xenograft models. Pathway analysis in BRAF V600X CRC models revealed that CFT1946 suppresses EGFR-mediated MAPK pathway reactivation, a mechanism known to diminish the impact of approved BRAF inhibitors in this indication. CFT1946 also demonstrated regression in a BRAF-V600X NSCLC PDX model where the SOC dabrafenib + trametinib showed only modest tumor growth inhibition. Consistent with our previous results in the A375 melanoma model, single agent CFT1946 showed superior activity versus the SOC dabrafenib + trametinib combination in all additional melanoma models tested, with complete regression achieved using a CFT1946 + trametinib combination in a PDX model bearing a BRAF-V600E kinase duplication that showed minimal response to dabrafenib + trametinib. Finally, using an A375 intracranial model, treatment with CFT1946 gave robust, dose dependent efficacy and survival advantage over encorafenib. The promising activity of CFT1946 in a broad range of BRAF V600X preclinical models supports its ongoing clinical investigation in BRAF V600 mutant solid tumors (NCT05668585). Citation Format: Bridget Kreger, Jacob R. Stephenson, Mathew E. Sowa, Samantha A. Perino, Laura L. Poling, Eunju Hurh, Michael J. Thomenius, Yanke Liang, Stewart L. Fisher, Roy M. Pollock. CFT1946, a potent, selective BRAF V600X mutant-specific degrader demonstrates superior activity as a single agent to clinically approved BRAF inhibitors and standard of care combinations in preclinical models of BRAF V600X melanoma, CRC, NSCLC, and brain metastasis [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 1 (Regular Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(6_Suppl):Abstract nr 1658.