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Apoptosis and Paraptosis Induced by Disulfiram-Loaded Ca 2+ /Cu 2+ Dual-Ions Nano Trap for Breast Cancer Treatment.

Zhen-Hu GuoXiaohan GaoJing-Song LuYing LiZeping JinAbdul FahadNeema Ufurahi PambeHirotaka EjimaXiaodan SunXiu-Mei WangWensheng XieGuifeng ZhangLing Yun Zhao
Published in: ACS nano (2024)
Regarded as one of the hallmarks of tumorigenesis and tumor progression, the evasion of apoptotic cell death would also account for treatment resistance or failure during cancer therapy. In this study, a Ca 2+ /Cu 2+ dual-ion "nano trap" to effectively avoid cell apoptosis evasion by synchronously inducing paraptosis together with apoptosis was successfully designed and fabricated for breast cancer treatment. In brief, disulfiram (DSF)-loaded amorphous calcium carbonate nanoparticles (NPs) were fabricated via a gas diffusion method. Further on, the Cu 2+ -tannic acid metal phenolic network was embedded onto the NPs surface by self-assembling, followed by mDSPE-PEG/lipid capping to form the DSF-loaded Ca 2+ /Cu 2+ dual-ions "nano trap". The as-prepared nanotrap would undergo acid-triggered biodegradation upon being endocytosed by tumor cells within the lysosome for Ca 2+ , Cu 2+ , and DSF releasing simultaneously. The released Ca 2+ could cause mitochondrial calcium overload and lead to hydrogen peroxide (H 2 O 2 ) overexpression. Meanwhile, Ca 2+ /reactive oxygen species-associated mitochondrial dysfunction would lead to paraptosis cell death. Most importantly, cell paraptosis could be further induced and strengthened by the toxic dithiocarbamate (DTC)-copper complexes formed by the Cu 2+ combined with the DTC, the metabolic products of DSF. Additionally, the released Cu 2+ will be reduced by intracellular glutathione to generate Cu + , which can catalyze the H 2 O 2 to produce a toxic hydroxyl radical by a Cu + -mediated Fenton-like reaction for inducing cell apoptosis. Both in vitro cellular assays and in vivo antitumor evaluations confirmed the cancer therapeutic efficiency by the dual ion nano trap. This study can broaden the cognition scope of dual-ion-mediated paraptosis together with apoptosis via a multifunctional nanoplatform.
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