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Acid-Responsive Micelles Releasing Cinnamaldehyde Enhance RSL3-Induced Ferroptosis in Tumor Cells

Ziliang Yan, Shaojie Wu, Yue Zhou, Feng Li

2022ACS Biomaterials Science & Engineering27 citationsDOI

Abstract

Ferroptosis is a novel type of regulated cell death characterized by the accumulation of lipid peroxides to lethal levels. Most tumor cells are extremely vulnerable to ferroptosis due to the high levels of reactive oxygen species (ROS) produced by their active metabolism. Therefore, tumor cells rely on glutathione (GSH) to reduce lipid peroxides catalyzed by glutathione peroxidase 4 (GPX4), and this pathway is also an important target for a variety of drugs that promote tumor cell ferroptosis. Herein, RSL3@PCA was designed to simultaneously deplete intracellular GSH and inhibit the activity of GPX4, thereby significantly promoting tumor cell ferroptosis. RSL3@PCA was successfully prepared by encapsulating a selective inhibitor of GPX4 into acid-responsive nanoparticle PCA. After being taken up by tumor cells, the acid-responsive nanoparticle gradually degraded to release cinnamaldehyde (CA) and the encapsulated RSL3. CA and RSL3 block the reduction of lipid peroxides in cells, thereby inducing ferroptosis. By a cytotoxicity assay and 4T1 cell xenotransplantation model, we confirmed that RSL3@PCA has excellent inhibition of tumor growth without significant toxicity to normal cells and tissues and still has a good therapeutic effect on tumor cells that are resistant to conventional chemotherapy drugs. This work provides new drug combinations for promoting ferroptosis in tumor cells without severe side effects in normal organs.

Topics & Concepts

GPX4GlutathioneChemistryReactive oxygen speciesCytotoxicityProgrammed cell deathLipid peroxidationBiochemistryCellCell biologyAntioxidantCancer researchGlutathione peroxidaseApoptosisIn vitroBiologyEnzymeFerroptosis and cancer prognosisCancer, Lipids, and MetabolismInflammatory mediators and NSAID effects
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