C/EBPα Confers Dependence to Fatty Acid Anabolic Pathways and Vulnerability to Lipid Oxidative Stress–Induced Ferroptosis in FLT3 -Mutant Leukemia

氧化应激 髓系白血病 化学 脂质代谢 生物化学 细胞生物学 生物 癌症研究
作者
Marie Sabatier,Rudy Birsen,Laura Lauture,Sarah Mouche,Paolo Angelino,Jonas Dehairs,Léa Goupille,Ismaël Boussaid,Maël Heiblig,Emeline Boët,Ambrine Sahal,Estelle Saland,Juliana C. Santos,Marc Armengol,Miranda Fernández-Serrano,Thomas Farge,Guillaume Cognet,Federico Simonetta,Corentin Pignon,Antoine Graffeuil
出处
期刊:Cancer Discovery [American Association for Cancer Research]
卷期号:13 (7): 1720-1747 被引量:87
标识
DOI:10.1158/2159-8290.cd-22-0411
摘要

Although transcription factor CCAAT-enhancer binding protein α (C/EBPα) is critical for normal and leukemic differentiation, its role in cell and metabolic homeostasis is largely unknown in cancer. Here, multiomics analyses uncovered a coordinated activation of C/EBPα and Fms-like tyrosine kinase 3 (FLT3) that increased lipid anabolism in vivo and in patients with FLT3-mutant acute myeloid leukemia (AML). Mechanistically, C/EBPα regulated the fatty acid synthase (FASN)-stearoyl-CoA desaturase (SCD) axis to promote fatty acid (FA) biosynthesis and desaturation. We further demonstrated that FLT3 or C/EBPα inactivation decreased monounsaturated FA incorporation to membrane phospholipids through SCD downregulation. Consequently, SCD inhibition enhanced susceptibility to lipid redox stress that was exploited by combining FLT3 and glutathione peroxidase 4 inhibition to trigger lipid oxidative stress, enhancing ferroptotic death of FLT3-mutant AML cells. Altogether, our study reveals a C/EBPα function in lipid homeostasis and adaptation to redox stress, and a previously unreported vulnerability of FLT3-mutant AML to ferroptosis with promising therapeutic application. SIGNIFICANCE: FLT3 mutations are found in 30% of AML cases and are actionable by tyrosine kinase inhibitors. Here, we discovered that C/EBPα regulates FA biosynthesis and protection from lipid redox stress downstream mutant-FLT3 signaling, which confers a vulnerability to ferroptosis upon FLT3 inhibition with therapeutic potential in AML. This article is highlighted in the In This Issue feature, p. 1501.
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