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Melanoma Persister Cells Are Tolerant to BRAF/MEK Inhibitors via ACOX1-Mediated Fatty Acid Oxidation

Shensi Shen, Sara Faouzi, Sylvie Souquère, Séverine Le Roy, Émilie Routier, C. Libenciuc, Fabrice André, Gérard Pierron, Jean‐Yves Scoazec, Caroline Robert

2020Cell Reports166 citationsDOIOpen Access PDF

Abstract

Emerging evidence indicates that non-mutational drug tolerance mechanisms underlie the survival of residual cancer "persister" cells. Here, we find that BRAF(V600E) mutant melanoma persister cells tolerant to BRAF/MEK inhibitors switch their metabolism from glycolysis to oxidative respiration supported by peroxisomal fatty acid β-oxidation (FAO) that is transcriptionally regulated by peroxisome proliferator-activated receptor alpha (PPARα). Knockdown of the key peroxisomal FAO enzyme, acyl-CoA oxidase 1 (ACOX1), as well as treatment with the peroxisomal FAO inhibitor thioridazine, specifically suppresses the oxidative respiration of persister cells and significantly decreases their emergence. Consistently, a combination treatment of BRAF/MEK inhibitors with thioridazine in human-melanoma-bearing mice results in a durable anti-tumor response. In BRAF(V600E) melanoma samples from patients treated with BRAF/MEK inhibitors, higher baseline expression of FAO-related genes and PPARα correlates with patients' outcomes. These results pave the way for a metabolic strategy to overcome drug resistance.

Topics & Concepts

PeroxisomeCancer researchOxidative phosphorylationBeta oxidationMelanomaV600EMEK inhibitorMultidrug toleranceBiologyChemistryPharmacologyFatty acidBiochemistryReceptorSignal transductionMAPK/ERK pathwayMutantGeneBiofilmGeneticsBacteriaMelanoma and MAPK PathwaysPeroxisome Proliferator-Activated ReceptorsCancer, Hypoxia, and Metabolism
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