Abstract 3660: A link between miRNAs and mRNA translation elongation: The let7-eEF2K axis in MYC-driven pediatric tumors adaptation to nutrient deprivation

Abstract

Abstract BACKGROUND/OBJECTIVES: MYC family proteins are implicated in many human cancers, but their therapeutic targeting has proven challenging. MYCN and MYC amplification in childhood neuroblastoma (NB) and medulloblastoma (MB) are associated with aggressive disease and high mortality, underscoring a dire need for novel therapies. Let-7 microRNAs (miRNAs) inhibit tumor progression and regulate metabolism by degrading several mRNAs, including MYC. Let-7 miRNAs are therefore frequently repressed in cancer, including MYC-driven NB and MB. We previously reported that the mRNA translation elongation regulator eukaryotic Elongation Factor-2 Kinase (eEF2K) is a pivotal mediator of cancer cells adaptation to nutrient deprivation (ND). Publicly available transcriptomic database analyses indicate that eEF2K expression significantly correlate with MYCN and MYC expression in multiple tumor cohorts. Our preliminary data also indicate that the eEF2K 3’ untranslated region (UTR) harbors a potential binding site for let-7 miRNAs. In addition, eEF2K mRNA and let-7 miRNA expression negatively correlates in NB and MB, suggesting a potential regulation of the former by the latter. We therefore hypothesized that let-7 down-regulation induces eEF2K expression, thereby supporting MYC-driven NB and MB adaptation to ND and tumor progression. METHODS: Immunohistochemistry for eEF2K substrate (p-eEF2) was performed on NB and MB tissue microarrays to link results with MYC expression and outcome. Effects of eEF2K pharmacological and genetic inhibition on NB and MB cell survival were evaluated in vitro by MTT assay and PI staining. The ability of let-7 to degrade eEF2K mRNA was assessed by let-7 miRNAs transfection into MB cells, followed by RT-PCR and Western Blotting for eEF2K. Binding of let-7 to the eEF2K 3’UTR was validated by luciferase reporter assay. Finally, NB xenograft mouse models were used to confirm in vitro observations. RESULTS: High eEF2K activity is linked to MYC over-expression and reduced survival in NB and MB (p<0.05). Pharmacological and genetic inhibition of eEF2K significantly reduces survival of MYC/MYCN-amplified NB and MB cell lines under ND. Let-7 miRNAs transfection decreases eEF2K mRNA and protein levels (by ~40-50%), and down-regulation of luciferase activity by let-7 miRNAs is impaired upon mutation of the let-7 binding site on the eEF2K 3’UTR. Knockdown of eEF2K determines a twofold growth decrease of MYCN-amplified NB xenografts when mice are kept under caloric restriction diet. CONCLUSIONS: Let-7 miRNAs degrade eEF2K mRNA by binding to its 3'UTR, indicating that let-7 repression in MYC-driven NB and MB is partially responsible for eEF2K increased levels and activity. Moreover, the let-7-eEF2K axis represents a critical mechanism for MYC-driven NB and MB adaptation to ND, constituting a promising therapeutic target. Citation Format: Alberto Delaidelli, Gian Luca Negri, Brian Cho, Simran Sidhu, Stefan Pfister, Michael Taylor, Gabriel Leprivier, Marcel Kool, Poul Soresnsen. A link between miRNAs and mRNA translation elongation: The let7-eEF2K axis in MYC-driven pediatric tumors adaptation to nutrient deprivation [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2019; 2019 Mar 29-Apr 3; Atlanta, GA. Philadelphia (PA): AACR; Cancer Res 2019;79(13 Suppl):Abstract nr 3660.