Abstract

Abstract Myc encodes for a transcription factor deregulated in the vast majority of human cancers, mainly by amplification or constant upstream oncogenic signaling. Previous work from our laboratory showed that targeting Myc by transgenic expression of the Myc inhibitor Omomyc is an effective strategy to inhibit tumor progression and cause tumor regression in a wide array of mouse cancer models, without any evidence of toxicity in normal tissues. Our goal now is to assess whether Myc inhibition can be an effective approach to treat melanoma, the most dangerous form of skin cancer. For this purpose, we transfected human melanoma cell lines with a doxycycline-dependent vector expressing Omomyc-RFP and characterized the effect of Myc inhibition on proliferation and colony formation, as well as the expression of different cell cycle related proteins. We observed that Omomyc significantly reduced proliferation of a wide variety of cell lines, regardless of their driving mutations. In p53 wild type cells, Omomyc expression was accompanied by p53 stabilization and concomitant p21 upregulation, and in BRaf or NF1 mutated melanoma cells, by downregulation of cyclin D1. In order to elucidate the mechanism of action underlying this anti-tumorigenic effect, we performed a microarray analysis of A375 melanoma cells in the presence or absence of Omomyc-RFP expression. This analysis showed that Omomyc affected genome-wide gene expression. More in detail, Gene Set Enrichment Analysis showed that Omomyc significantly blunts the expression of both Myc and E2F targets, as well as RNA biogenesis, DNA replication and different cell cycle checkpoints, among many others relevant gene sets. Importantly, Omomyc significantly reduced the expression of genes related to melanoma metastases. Finally, in order to validate Omomyc therapeutic impact in vivo, A375 and SkMel147 cells were s.c. implanted into nude mice and the effect of Omomyc expression on tumor progression was evaluated. Our results show that Omomyc expression significantly impairs the growth of both cell lines, increasing the survival of tumor-bearing mice. These results combined clearly show that Omomyc-mediated Myc inhibition is an effective means to impair melanoma progression, by directly targeting Myc, inhibiting cell cycle and decreasing melanoma aggressiveness. Citation Format: Mariano F. Zacarias-Fluck, Génesis Martín, Daniel Massó-Vallés, Laia Foradada, Jonathan R. Whitfield, Marie-Eve Beaulieu, Laura Soucek. Myc inhibition by Omomyc impairs melanoma growth and progression through genome-wide gene expression reprogramming [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2018; 2018 Apr 14-18; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2018;78(13 Suppl):Abstract nr 3351.

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