Chemodynamic therapy represents a distinct anti-tumor strategy by activating intratumoral chemical catalytic reactions to produce highly toxic reactive oxygen species (ROS) from non-/limited-toxic nanocatalysts. However, the low efficacy of ROS generation still remains a major challenge for further clinical translation. Herein, a liposomal nanosystem which simultaneously encapsulated copper peroxide nanodots (CPNs) and artemisinin (ART) was constructed for autophagy-enhanced and ferroptosis-involved cancer cell death owing to Cu-based dual catalytic strategy. To be specific, the CPN components, served as a HO self-supplying platform, release HO and Cu under acidic tumor environment and endogenously generate OH via Fenton-like reaction (catalytic reaction I). In addition, Cu species catalyze ART components to produce ROS radicals (catalytic reaction II), further augmenting the intracellular oxidative damage and lipid peroxide accumulation, leading to cancer cell death. Specifically, ART also acted as a potent autophagy inducer increasing the level of intracellular iron pool through degradation of ferritin, which could promote cancer cell ferroptosis, producing the best antineoplastic effect. After accumulation into the tumor sites, ultrasound irradiation was applied to trigger the release of CPNs and ART from liposomal nanosystems, and amplify the efficacy of catalytic reaction for maximum therapeutic effect. Both in vitro and in vivo therapeutic outcomes suggest the outstanding autophagy-augmented ferroptosis-involved cancer-therapeutic efficacy, which was further corroborated by transcriptome sequencing. In this work, Cu was firstly proven to trigger ART to produce ROS species, but also provide a TME-responsive nanoplatform for potentially suppressing tumor growth by autophagy-augmented ferroptosis-involved cancer nanotherapy.
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http://dx.doi.org/10.1016/j.biomaterials.2022.121668 | DOI Listing |
Biomaterials
August 2022
Materdicine Lab, School of Life Sciences, Shanghai University, Shanghai, 200444, PR China. Electronic address:
Chemodynamic therapy represents a distinct anti-tumor strategy by activating intratumoral chemical catalytic reactions to produce highly toxic reactive oxygen species (ROS) from non-/limited-toxic nanocatalysts. However, the low efficacy of ROS generation still remains a major challenge for further clinical translation. Herein, a liposomal nanosystem which simultaneously encapsulated copper peroxide nanodots (CPNs) and artemisinin (ART) was constructed for autophagy-enhanced and ferroptosis-involved cancer cell death owing to Cu-based dual catalytic strategy.
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