Abstract 2674: Antitumor activity of KIN-2787, a next-generation pan-RAF inhibitor, in preclinical models of human RAF/RAS mutant melanoma

Abstract

Abstract Background: In the US in 2021, invasive melanoma will account for an estimated 106,000 new cases and > 7,000 deaths. Somatic mutations that activate the MAPK signaling pathway are a leading cause of melanoma with 50% harboring oncogenic BRAF alterations and another 20% with activating NRAS mutations. Of note, NRAS mutant melanoma has been shown to be dependent upon RAF signaling via CRAF dimers for downstream activation of MEK/ERK. While targeted therapies are approved for V600 (Class I, monomer-driven) BRAF mutant melanoma, no approved targeted therapy exists for patients with melanoma driven by Class II or Class III dimer-dependent BRAF alterations or NRAS mutations. KIN-2787 is a novel, orally available, potent, and selective pan-RAF inhibitor designed to be effective in RAF-dependent cancers, including all classes of BRAF alterations, by targeting mutant BRAF monomers and RAF dimers, regardless of isoform. Methods: KIN-2787 activity was assessed by suppression of downstream MAPK pathway signaling and subsequent cell growth inhibition in a panel of human melanoma cell lines. In vivo KIN-2787 efficacy was evaluated in BRAF and NRAS mutant melanoma cell- and patient-derived xenograft models. Results: KIN-2787 cellular activity was measured by inhibition of ERK phosphorylation across a panel of melanoma cell lines, including those harboring Class I BRAF alterations, Class II and III BRAF alterations, NRAS mutations, KRAS mutations, and wild type RAF/RAS. In contrast to vemurafenib, an approved BRAF inhibitor with activity limited to Class I BRAF alterations, KIN-2787 was active across all classes of BRAF mutant melanoma cells (EC50 values < 100 nM). NRAS and KRAS mutant cell lines were moderately responsive to KIN-2787 inhibition. Melanoma cells expressing wild type RAS/RAF were the least sensitive to MAPK pathway inhibition by KIN-2787. KIN-2787 also inhibited cell proliferation in BRAF and NRAS mutant melanoma in 2D and 3D cell cultures. Daily KIN-2787 treatment resulted in significant tumor growth inhibition in human melanoma xenograft models bearing Class I, II and III BRAF alterations as well as NRAS mutations and was associated with MAPK pathway suppression. Additionally, KIN-2787 was efficacious in a pre-/post-treatment melanoma PDX pair in which the original tumor was Class I BRAF V600E but acquired a Class II BRAF kinase domain duplication upon progression on dabrafenib + trametinib. Details from the above findings will be presented at the meeting. Conclusions: KIN-2787 is a next-generation, pan-RAF inhibitor with in vitro and in vivo activity against human melanoma driven by BRAF and/or NRAS mutations. Data supports KIN-2787 use in acquired BRAF dimer-dependent resistance to BRAF+MEK inhibitor therapy. A Phase I dose escalation and expansion clinical trial evaluating the safety and efficacy of KIN-2787 is ongoing (NCT04913285). Citation Format: Nichol L. G. Miller, Tim S. Wang, Paul Severson, Ping Jiang, Michelle Perez, Noel Timple, Toufike Kanouni, Aleksandra Franovic, Eric S. Martin, Eric Murphy. Antitumor activity of KIN-2787, a next-generation pan-RAF inhibitor, in preclinical models of human RAF/RAS mutant melanoma [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 2674.