Reprogramming the chemical reactivity of iron in cancer stem cells |
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Authors: | Tatiana Cañeque Sebastian Müller Anne Lafon Fabien Sindikubwabo Antoine Versini Lou Saier Manon Barutaut Christine Gaillet Raphaël Rodriguez |
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Institution: | 1. Institut Curie, 26, rue d''Ulm, 75005 Paris, France;2. PSL Research University, France;3. CNRS UMR 3666, France;4. INSERM U1143, Chemical Biology of Cancer Team, Équipe labellisée “Ligue nationale contre le cancer”, France |
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Abstract: | Cancer stem cells (CSCs) have been shown to be refractory to conventional therapeutic agents, can promote metastasis, and have been linked to cancer relapse. Salinomycin can selectively kill CSCs. We have shown that salinomycin derivatives accumulate in lysosomes and sequester iron in this organelle. As a result, accumulation of iron leads to the production of reactive oxygen species and lysosomal membrane permeabilization, which in turn promotes cell death by ferroptosis. These findings have revealed the prevalence of iron homeostasis in CSCs and paved the way toward the development of next-generation therapeutics. |
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Keywords: | Cancer Cancer stem cells Salinomycin Lysosome Iron Fenton reaction Ferroptosis Cancer Cellules souches cancéreuses Salinomycine Lysosome Fer Réaction de Fenton Ferroptose |
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