Abstract

Abstract Melanoma is one of the most common cancers with a high rate of brain metastases, with up to 75% of cases showing brain metastases upon autopsy. BRAF mutations are common in melanoma and found in up to 50-55% of melanoma brain metastases. Despite the clinical success of BRAF/MEK inhibitors for the treatment of advanced melanoma, dabrafenib and vemurafenib have limited intracranial overall response rates of 42-50% and median progression-free survival of 3.6-5.5 months. This limited efficacy is in part attributed to minimal blood-brain barrier penetration of the current available inhibitors. The goal of this study was to characterize a novel MEK inhibitor KIN-7136 as a potential therapeutic agent for brain metastasis driven by aberrant BRAF-MEK signaling, such as BRAF-mutant melanoma, using in vitro assays and an in vivo model of metastasis. KIN-7136 showed improved rodent brain exposure compared to conventional agents; the brain-to-plasma concentration ratio (Kp) of KIN-7136 was >1.0, much higher than comparators binimetinib and mirdametinib. In vitro cell viability assays showed potent cytotoxic effects of KIN-7136, with IC50s ranging from 15.4 to 204.9 nM in models of MAPK dysregulation including A375 (melanoma, BRAFV600E), NCI-H2405 (lung adenocarcinoma, BRAFΔNVTAP), HMVII (melanoma, BRAFG469V), and LN001 (patient derived lung adenocarcinoma, KRASG12V). Western blotting for phospho-ERK confirmed KIN-7136-mediated on-target downstream suppression in the A375 cell line. In vivo, daily oral treatment with KIN-7136 was well tolerated and produced a significant extension of overall survival compared to the vehicle control (p=0.0289, log-rank test) in the A375 intracranial tumor model in athymic mice. These preclinical data confirm activity of KIN-7136 in BRAF-mutant melanoma brain metastases models and support further research to advance its clinical progression.

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