Abstract 3056: Copper chelation modulates YTHDF2 RNA-binding protein localization and global translation, in neuronal cancers

Abstract Cancers are dependent on copper for growth, angiogenesis and metastasis and copper chelators are in clinical trials against breast cancer, however the mechanisms of this emerging cancer treatment are still largely unexplored. We previously demonstrated that copper chelation has efficacy in mouse models of neuroblastoma and glioma. Multiomics analyses in neuronal cancers suggested that RNA-binding proteins were deregulated by copper chelator treatment. We found that the “RNA Binding” gene set was the most significantly ranked molecular function list using differentially expressed RNAs after copper chelation treatment (GO:0003723, p-value 1.02e−32). We subsequently found that the copper chelator drug decreased global protein synthesis, MYC/MYCN expression, as well as the amount a key methylated (m6A) RNA-binding protein called YTHDF2 in glioma cells, by RNA-seq (-log2FC 0.3, p-value 0.005) and western blot. This downregulation was also clear in neuroblastoma and glioblastoma cell lines. Interestingly, copper chelation also shifted YTHDF2 protein location into the nucleus. YTHDF2 knock-out (DepMAP Chronos dependency score, -0.32) and knock-down studies (siRNA pool, 38% decrease in cell confluence) in neuroblastoma cell lines and others, indicated that YTHDF2 depletion is selective against neuronal cancer cell growth. YTHDF2 was found to be a MYCN transcriptional target. Moreover, as YTHDF2 protein also binds MYCN transcripts (the principal oncogene in neuroblastoma), and copper signaling mRNAs, it appears that copper signaling, YTHDF2 and MYCs operates in an oncogenic-axis. Ongoing studies are investigating novel YTHDF2 inhibitors and their neuronal cancer efficacy. Our work represents a significant breakthrough in drugging oncogenic post-transcriptional processes either directly, or indirectly via depleting copper. Citation Format: Jessica L. Bell, Domenico K. Abruzzese, Erin Kasiou, Vu Vu Pham, Jean B. Bertoldo, Filip Michniewicz, Orazio Vittorio. Copper chelation modulates YTHDF2 RNA-binding protein localization and global translation, in neuronal cancers [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 1 (Regular Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(6_Suppl):Abstract nr 3056.