Abstract Alterations in the RAS-MAPK pathway, such as mutations in NF1, RAS, and BRAF, often lead to oncogenic signaling and result in aberrant cell proliferation and tumor growth. Oncogenic BRAF mutations may be activated as either monomers or dimers, while oncogenic RAS mutations or loss-of-function mutations in NF1, a negative regulator of RAS, drive activation of RAF dimers to transduce MAPK signaling. Currently approved BRAF inhibitors are selective against monomeric BRAF mutations and largely inactive against dimeric RAF mutants. Additionally, these agents may also promote deleterious paradoxical activation of RAF in select contexts. Moreover, FDA-approved KRAS G12C mutant-selective inhibitors are ineffective for cancer patients who harbor other (non-G12C) KRAS, NRAS, and NF1 mutations which all lead to active RAF dimer. There remains a high unmet clinical need for a highly CNS penetrant RAF inhibitor that targets a broad spectrum of oncogenic RAF conformations in the context of RAF, RAS, and other upstream driver mutations. BDTX-4933 is a next generation MasterKey RAF inhibitor designed to address the shortcomings of previous generation RAF inhibitors. BDTX-4933 is an orthosteric inhibitor that potently targets the oncogenic RAF conformation shared by groups of RAF driver mutations and induces an inactive conformation of RAF. As a MasterKey inhibitor, BDTX-4933 potently inhibits a broad spectrum of BRAF mutations and active RAF dimers promoted by upstream oncogenic MAPK pathway alterations, such as KRAS, NRAS, and NF1 mutations. In vivo, once daily oral dosing of BDTX-4933 resulted in robust and sustained target engagement, inhibiting ERK phosphorylation without inducing paradoxical activation. In a mouse breadth of efficacy study with patient derived xenografts (PDX), BDTX-4933 demonstrated tumor growth inhibition and regression as a single agent across models expressing a variety of targeted BRAF or MAPK pathway oncogenic mutations. Additionally, BDTX-4933 as a single agent and in combination with a MEK inhibitor, demonstrates anti-tumor efficacy in KRAS mutant lung PDX models. In a PDX model of BRAF V600E positive tumor that progressed following BRAF and MEK combination therapy, BDTX-4933 achieved robust tumor growth regression. Furthermore, BDTX-4933 exhibits high CNS exposure leading to dose-dependent tumor growth inhibition, and survival benefit in mice implanted intracranially with xenograft BRAF mutant tumors. BDTX-4933 has a best-in-class RAF inhibitor profile to treat cancer patients harboring BRAF mutations or RAF dimer-promoting upstream genetic alterations. BDTX-4933 is currently in a Phase I clinical study in patients with solid tumor harboring sensitive BRAF and RAS alterations (NCT05786924). For more information on this active Phase 1, please contact: ClinicalTrials@bdtx.com. Citation Format: Yoon-Chi Han, Pui Yee Ng, Luisa Shin Ogawa, Shao Ning Yang, Miao Chen, Darlene Romashko, Tai-An Lin, Elizabeth Buck. Preclinical efficacy of BDTX-4933, a brain-penetrant, orthosteric RAF inhibitor, targeting oncogenic RAF conformation shared by groups of BRAF and upstream driver mutations [abstract]. In: Proceedings of the AACR-NCI-EORTC Virtual International Conference on Molecular Targets and Cancer Therapeutics; 2023 Oct 11-15; Boston, MA. Philadelphia (PA): AACR; Mol Cancer Ther 2023;22(12 Suppl):Abstract nr A090.