Abstract 3415: Preclinical characterization of a brain penetrant RAF inhibitor, BDTX-4933, targeting oncogenic BRAF Class I/II/III and RAS mutations

Mutations in BRAF and RAS are often oncogenic and lead to a constitutively active MAPK pathway that promotes aberrant cell proliferation and tumor growth. Currently approved BRAF inhibitors are selective against monomeric BRAF V600 mutants. These drugs are largely inactive against non-V600 dimeric B...

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Published in:Cancer research (Chicago, Ill.) Ill.), 2023-04, Vol.83 (7_Supplement), p.3415-3415
Main Authors: Han, Yoon-Chi, Ng, Pui-Yee, Ogawa, Luisa Shin, Yang, Shao Ning, Chen, Miao, Ishiyama, Noboru, Lin, Tai-An, Buck, Elizabeth
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container_issue 7_Supplement
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container_title Cancer research (Chicago, Ill.)
container_volume 83
creator Han, Yoon-Chi
Ng, Pui-Yee
Ogawa, Luisa Shin
Yang, Shao Ning
Chen, Miao
Ishiyama, Noboru
Lin, Tai-An
Buck, Elizabeth
description Mutations in BRAF and RAS are often oncogenic and lead to a constitutively active MAPK pathway that promotes aberrant cell proliferation and tumor growth. Currently approved BRAF inhibitors are selective against monomeric BRAF V600 mutants. These drugs are largely inactive against non-V600 dimeric BRAF mutants and have poor brain penetration. Although there is an FDA-approved KRAS G12C mutant-selective inhibitor, there are no approved inhibitors for cancer patients who harbor other (non-G12C) KRAS and NRAS mutations which promote tumor growth likely through constitutively active RAF dimers. There remains a high unmet clinical need for a highly CNS penetrant oral RAF inhibitor that targets a broad spectrum of BRAF mutations and constitutively active RAF dimers without paradoxical activation of the MAPK signaling pathway. BDTX-4933 is a potent, reversible, CNS penetrant RAF MasterKey inhibitor designed to target a large family of oncogenic BRAF mutations including BRAF monomers and RAF dimers. The compound inhibits not only all classes (I, II, and III) of BRAF mutations but also targets constitutively active RAF dimers promoted by upstream oncogenic MAPK pathway alterations, such as RAS mutations. In a panel of cancer cell lines that endogenously express BRAF or RAS mutations, BDTX-4933 demonstrates inhibition of the MAPK pathway signaling without paradoxical activation, resulting in potent inhibition of cellular proliferation. BDTX-4933 shows target engagement, inhibiting ERK phosphorylation, in tumor models in vivo, achieving strong anti-tumor efficacy and tumor regression across tumor models driven by either BRAF or RAS mutations. 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 profile to treat cancer patients harboring BRAF mutations or RAF dimer-promoting upstream genetic alterations. IND-enabling studies for BDTX-4933 are on-going. Citation Format: Yoon-Chi Han, Pui-Yee Ng, Luisa Shin Ogawa, Shao Ning Yang, Miao Chen, Noboru Ishiyama, Tai-An Lin, Elizabeth Buck. Preclinical characterization of a brain penetrant RAF inhibitor, BDTX-4933, targeting oncogenic BRAF Class I/II/III and RAS mutations [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2023; Part 1 (Regular and Invited Abstracts); 2023 Apr 14-19; Orlando, FL. Philadelphia (PA): AACR; Ca
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Currently approved BRAF inhibitors are selective against monomeric BRAF V600 mutants. These drugs are largely inactive against non-V600 dimeric BRAF mutants and have poor brain penetration. Although there is an FDA-approved KRAS G12C mutant-selective inhibitor, there are no approved inhibitors for cancer patients who harbor other (non-G12C) KRAS and NRAS mutations which promote tumor growth likely through constitutively active RAF dimers. There remains a high unmet clinical need for a highly CNS penetrant oral RAF inhibitor that targets a broad spectrum of BRAF mutations and constitutively active RAF dimers without paradoxical activation of the MAPK signaling pathway. BDTX-4933 is a potent, reversible, CNS penetrant RAF MasterKey inhibitor designed to target a large family of oncogenic BRAF mutations including BRAF monomers and RAF dimers. The compound inhibits not only all classes (I, II, and III) of BRAF mutations but also targets constitutively active RAF dimers promoted by upstream oncogenic MAPK pathway alterations, such as RAS mutations. In a panel of cancer cell lines that endogenously express BRAF or RAS mutations, BDTX-4933 demonstrates inhibition of the MAPK pathway signaling without paradoxical activation, resulting in potent inhibition of cellular proliferation. BDTX-4933 shows target engagement, inhibiting ERK phosphorylation, in tumor models in vivo, achieving strong anti-tumor efficacy and tumor regression across tumor models driven by either BRAF or RAS mutations. 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 profile to treat cancer patients harboring BRAF mutations or RAF dimer-promoting upstream genetic alterations. IND-enabling studies for BDTX-4933 are on-going. Citation Format: Yoon-Chi Han, Pui-Yee Ng, Luisa Shin Ogawa, Shao Ning Yang, Miao Chen, Noboru Ishiyama, Tai-An Lin, Elizabeth Buck. Preclinical characterization of a brain penetrant RAF inhibitor, BDTX-4933, targeting oncogenic BRAF Class I/II/III and RAS mutations [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2023; Part 1 (Regular and Invited Abstracts); 2023 Apr 14-19; Orlando, FL. 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The compound inhibits not only all classes (I, II, and III) of BRAF mutations but also targets constitutively active RAF dimers promoted by upstream oncogenic MAPK pathway alterations, such as RAS mutations. In a panel of cancer cell lines that endogenously express BRAF or RAS mutations, BDTX-4933 demonstrates inhibition of the MAPK pathway signaling without paradoxical activation, resulting in potent inhibition of cellular proliferation. BDTX-4933 shows target engagement, inhibiting ERK phosphorylation, in tumor models in vivo, achieving strong anti-tumor efficacy and tumor regression across tumor models driven by either BRAF or RAS mutations. 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 profile to treat cancer patients harboring BRAF mutations or RAF dimer-promoting upstream genetic alterations. IND-enabling studies for BDTX-4933 are on-going. Citation Format: Yoon-Chi Han, Pui-Yee Ng, Luisa Shin Ogawa, Shao Ning Yang, Miao Chen, Noboru Ishiyama, Tai-An Lin, Elizabeth Buck. Preclinical characterization of a brain penetrant RAF inhibitor, BDTX-4933, targeting oncogenic BRAF Class I/II/III and RAS mutations [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2023; Part 1 (Regular and Invited Abstracts); 2023 Apr 14-19; Orlando, FL. 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Currently approved BRAF inhibitors are selective against monomeric BRAF V600 mutants. These drugs are largely inactive against non-V600 dimeric BRAF mutants and have poor brain penetration. Although there is an FDA-approved KRAS G12C mutant-selective inhibitor, there are no approved inhibitors for cancer patients who harbor other (non-G12C) KRAS and NRAS mutations which promote tumor growth likely through constitutively active RAF dimers. There remains a high unmet clinical need for a highly CNS penetrant oral RAF inhibitor that targets a broad spectrum of BRAF mutations and constitutively active RAF dimers without paradoxical activation of the MAPK signaling pathway. BDTX-4933 is a potent, reversible, CNS penetrant RAF MasterKey inhibitor designed to target a large family of oncogenic BRAF mutations including BRAF monomers and RAF dimers. The compound inhibits not only all classes (I, II, and III) of BRAF mutations but also targets constitutively active RAF dimers promoted by upstream oncogenic MAPK pathway alterations, such as RAS mutations. In a panel of cancer cell lines that endogenously express BRAF or RAS mutations, BDTX-4933 demonstrates inhibition of the MAPK pathway signaling without paradoxical activation, resulting in potent inhibition of cellular proliferation. BDTX-4933 shows target engagement, inhibiting ERK phosphorylation, in tumor models in vivo, achieving strong anti-tumor efficacy and tumor regression across tumor models driven by either BRAF or RAS mutations. 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 profile to treat cancer patients harboring BRAF mutations or RAF dimer-promoting upstream genetic alterations. 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title Abstract 3415: Preclinical characterization of a brain penetrant RAF inhibitor, BDTX-4933, targeting oncogenic BRAF Class I/II/III and RAS mutations
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