DDDR-04. PRECLINICAL INVESTIGATION OF A NOVEL BRAIN PENETRANT COMBINATION THERAPY TARGETING RAF AND MEK FOR MELANOMA BRAIN METASTASIS

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Abstract INTRODUCTION Up to 75% of patients with advanced melanoma develop brain metastases. BRAF mutations are found in 50-55% of melanoma brain metastases. Current BRAF/MEK inhibitors, such as dabrafenib and vemurafenib, have shown responses on the order of 50-60% in patients with BRAF-mutant melanoma; however, responses are not durable. Better therapies are needed with improved penetration of the blood brain barrier. This study aims to evaluate the efficacy of two novel brain-penetrant inhibitors, KIN-7136 (MEK inhibitor) and KIN-8391 (RAF inhibitor), in preclinical mouse models of melanoma brain metastases driven by aberrant BRAF-MEK signaling. METHODS CellTiter-Glo® 2.0 Cell Viability Assay (Promega) was used for in vitro cell viability assays. Intracranial A375 melanoma models were generated in athymic nude mice to assess the pharmacodynamics, safety, and efficacy of combination therapy of KIN-7136 and KIN-8391. RESULTS In mice, the brain-to-plasma unbound partition coefficients (Kpuu) of KIN-7136 and KIN-8391 were 0.67 and 0.7 respectively, higher than the comparators binimetinib and belvarafenib, demonstrating improved brain exposure. The IC50s of KIN-7136/ KIN-8391 in melanoma cell lines were 27.0/36.5 nM in A375 (BRAF V600E), 78.6/35.4 nM in HMV2 (BRAF G469V), 183.0/699.0 nM in SK-MEL-2 (NRAS Q61R), and 53.9/110.0 nM in SK-MEL30 (BRAF D287H and E275K), respectively. KIN-7136 and KIN-8391 synergistically inhibited HMV2, SK-MEL-2, and SK-MEL-30 cells. Pharmacodynamic studies showed that both KIN-7136 and KIN-8391 suppressed phospho-ERK, a downstream component of BRAF-MEK signaling, in A375 xenografts in mice. Daily oral treatment with a combination of KIN-7136 and KIN-8391 was well-tolerated and extended overall survival to 64 days (median survival), compared to the vehicle control and monotherapies with KIN-7136 or KIN-8391 (28, 58, and 46.5, respectively) in the A375 intracranial tumor model. CONCLUSION These preclinical data confirm the synergistic effect of KIN-7136 and KIN-8391 in BRAF-mutant melanoma brain metastases models, supporting further research to advance its clinical translation.