Abstract 5807: MDM2 mitochondrial translocation mediates metabolic reprogramming towards OXPHOS in TKI-resistant oncogene-addicted cancer

Abstract

Abstract There is mounting evidence of oxidative phosphorylation (OXPHOS) dependency in cancers resistant to tyrosine kinase inhibitors (TKI), but the cause of this metabolic switch remains elusive. Mitochondria-bound MDM2 (mtMDM2), the fraction of MDM2 oncoprotein which is actively imported into the mitochondria, has been found to dysregulate electron transport chain (ETC) complex I function and OXPHOS. AKT is known to be a regulator of MDM2 protein stability. Given that AKT phosphorylation is commonly detected in oncogene-addicted tumours, we investigated the role of mtMDM2 and AKT in promoting TKI resistance through reprogrammed cellular metabolism. EGFR+ NSCLC [HCC827 and HCC827-GR (gefitinib-resistant)] and BRAF+ melanoma [A375 and A375-VR (vemurafenib-resistant)] cells were established via repetitive pulsed strategy. Translocation of MDM2 was examined through subcellular fractionation and Western Blotting. To investigate the role of MDM2 in mediating OXPHOS, genetic knockdown of MDM2 was performed via siRNA followed by measurement of oxygen consumption rate (Seahorse Analyzer); mRNA expression of mtDNA-encoded ETC subunits by real-time PCR (qPCR). ChIP-qPCR analysis was performed to examine the binding affinity of MDM2 and TFAM (mitochondrial transcription factor A) to mitochondrial DNA (mtDNA). Mitochondrial translocation of MDM2 was predominant in TKI-sensitive cells; MDM2 silencing upregulated OXPHOS and induced mRNA expression of mtDNA-encoded ETC complex I subunits, suggesting that mtMDM2 inhibits OXPHOS. ChIP analysis revealed competitive binding of MDM2 and TFAM at the LSP region of mtDNA. Conversely, MDM2 was primarily localized the cytoplasm in TKI-resistant cells and was associated with increased OXPHOS in TKI-resistant cells. Mechanistically, both pAKT and pMDM2 (Ser166/Ser186) were higher in TKI-resistant cells. Collectively, we describe a novel observation that OXPHOS upregulation underpinning TKI resistance in cancer cells could be mediated by AKT upregulation and MDM2 localisation. Citation Format: Jie Qing Eu, Li Ren Kong, Jayshree Hirpara, Boon Cher Goh, Andrea LA Wong, Shazib Pervaiz. MDM2 mitochondrial translocation mediates metabolic reprogramming towards OXPHOS in TKI-resistant oncogene-addicted cancer [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 5807.