Abstract

Abstract Inactivation of the oncogene BAP1 is associated with poor prognosis in many cancers, including uveal melanoma (UM). Therapies for mediating the detrimental effects of BAP1 mutations have yet to be developed. Previously, we found that BAP1 depletion in Xenopus causes a striking developmental phenotype and a global dysregulation of differentiation markers across the genetic landscape. This was caused by impaired promoter assembly at commitment genes, marked by decreased H3K27ac levels. Inhibition of HDAC4 protein rescues the affected BAP1-depleted phenotype and genetic regulations, further emphasizing the role of H3K27ac in BAP1 function. Pairing these findings with a lab-devised multitiered screening process, we identified an epigenetic compound that successfully reverses the detrimental effects of the BAP1 deficient phenotype back to phenotypically normal conditions. This multitiered screening process tests prospective compounds for the ability to mediate transcriptional aberrations caused by BAP1 loss in UM cells (phase 1), rescue the BAP1 loss phenotype in Xenopus (phase 2), and provide significant inhibition of UM tumor growth in a mouse model (phase 3). These findings reveal a new application for a promising epigenetic compound as a therapeutic and reversing agent for BAP1 mutant UM. Furthermore, our streamlined process for the testing of promising therapeutic agents can accelerate the testing of such agents and getting them to clinical trials in a timely manner. Citation Format: DAWN A. OWENS, Jeffim N. Kuznetsov, Andy Lopez, Stefan Kurtenbach, Daniel Bilbao, Evan R. Roberts, Claude-Henry Volmar, Claes R. Wahlestedt, Shaun P. Brothers, J. William Harbour. New candidate therapy for BAP1-mutant cancer identified using novel screen [abstract]. In: Proceedings of the Annual Meeting of the American Association for Cancer Research 2020; 2020 Apr 27-28 and Jun 22-24. Philadelphia (PA): AACR; Cancer Res 2020;80(16 Suppl):Abstract nr 4025.

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