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Targeting NRF2-Governed Glutathione Synthesis for SDHB-Mutated Pheochromocytoma and Paraganglioma

Yang Liu, Ying Pang, Veronika Caisová, Jianyi Ding, Di Yu, Yiqiang Zhou, Thanh‐Truc Huynh, Hans K. Ghayee, Karel Pacák, Chunzhang Yang

2020Cancers43 citationsDOIOpen Access PDF

Abstract

Succinate dehydrogenase subunit B (SDHB) deficiency frequently occurs in cluster I pheochromocytomas and paragangliomas (PCPGs). SDHB-mutated PCPGs are characterized by alterations in the electron transport chain, metabolic reprogramming of the tricarboxylic cycle, and elevated levels of reactive oxygen species (ROS). We discovered that SDHB-deficient PCPG cells exhibit increased oxidative stress burden, which leads to elevated demands for glutathione metabolism. Mechanistically, nuclear factor erythroid 2-related factor 2 (NRF2)-guided glutathione de novo synthesis plays a key role in supporting cellular survival and the proliferation of SDHB-knockdown (SDHBKD) cells. NRF2 blockade not only disrupted ROS homeostasis in SDHB-deficient cells but also caused severe cytotoxicity by the accumulation of DNA oxidative damage. Brusatol, a potent NRF2 inhibitor, showed a promising effect in suppressing SDHBKD metastatic lesions in vivo, with prolonged overall survival in mice bearing PCPG allografts. Our findings highlight a novel therapeutic strategy of targeting the NRF2-driven glutathione metabolic pathway against SDHB-mutated PCPG.

Topics & Concepts

SDHBParagangliomaGlutathioneOxidative stressCitric acid cycleCancer researchSuccinate dehydrogenaseReactive oxygen speciesChemistryOxidative phosphorylationBiologyCell biologyBiochemistryMitochondrionMetabolismEnzymeMedicineGermline mutationMutationPathologyGeneAdrenal and Paraganglionic TumorsCancer, Hypoxia, and MetabolismHormonal Regulation and Hypertension