2025
Metabolic rewiring in skin epidermis drives tolerance to oncogenic mutations
Hemalatha A, Li Z, Gonzalez D, Matte-Martone C, Tai K, Lathrop E, Gil D, Ganesan S, Gonzalez L, Skala M, Perry R, Greco V. Metabolic rewiring in skin epidermis drives tolerance to oncogenic mutations. Nature Cell Biology 2025, 27: 218-231. PMID: 39762578, PMCID: PMC11821535, DOI: 10.1038/s41556-024-01574-w.Peer-Reviewed Original ResearchConceptsWild-type cellsOxidative tricarboxylic acid cycleOncogenic mutationsTricarboxylic acid cycleSingle-cell resolutionMutant phenotypeMutant cellsMutant epidermisCell competitionMetabolic rewiringAcid cycleCellular redoxStem cellsMutant modelsSkin epithelial stem cellsEpidermal stem cellsContribution of glucoseEpithelial stem cellsCytosolic redoxRedox ratioMetabolic stateMutationsHrasG12VSkin epidermisCells
2018
Uncoupling Hepatic Oxidative Phosphorylation Reduces Tumor Growth in Two Murine Models of Colon Cancer
Wang Y, Nasiri AR, Damsky WE, Perry CJ, Zhang XM, Rabin-Court A, Pollak MN, Shulman GI, Perry RJ. Uncoupling Hepatic Oxidative Phosphorylation Reduces Tumor Growth in Two Murine Models of Colon Cancer. Cell Reports 2018, 24: 47-55. PMID: 29972790, PMCID: PMC6056247, DOI: 10.1016/j.celrep.2018.06.008.Peer-Reviewed Original ResearchConceptsControlled-release mitochondrial protonophoreTumor growthGlucose uptakeDiet-induced obesityMurine colon cancer modelColon cancer modelHepatic energy metabolismColon cancer pathogenesisHormonal milieuPlasma insulinFed miceInsulin infusionMurine modelColon cancerCancer modelCancer pathogenesisOxidative phosphorylationNeoplastic growthMitochondrial protonophoreHepatic oxidative phosphorylationObesityUnderlying mechanismEnergy metabolismCancerInsulin
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