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“Spark” PtMnIr Nanozymes for Electrodynamic‐Boosted Multienzymatic Tumor Immunotherapy

Danyang Li, Enna Ha, Zhenli Zhou, Jingge Zhang, Yaoyao Zhu, Fujin Ai, Yan Li, Shuqing He, Lei Li, Junqing Hu

2023Advanced Materials89 citationsDOI

Abstract

Abstract Multienzyme‐mimicking redox nanozymes capable of efficient reactive oxygen species (ROS) generation and cellular homeostasis disruption are highly pursued for cancer therapy. However, it still faces challenges from the complicate tumor microenvironment (TME) and high chance for tumor metastasis. Herein, well‐dispersed PtMnIr nanozymes are designed with multiple enzymatic activities, including catalase (CAT), oxidase (OXD), superoxide dismutase (SOD), peroxidase (POD), and glutathione peroxidase (GPx), which continuously produce ROS and deplete glutathione (GSH) concurrently in an “inner catalytic loop” way. With the help of electrodynamic stimulus, highly active “spark” species (Ir 3+ and Mn 3+ ) are significantly increased, resulting in an effective cascade enzymatic and electrodynamic therapy. Moreover, the cyclic generation of ROS can also facilitate ferroptosis and apoptosis in tumor cells, boosting synergistic therapy. Importantly, lung metastasis inhibition is found, which confirms efficient immunotherapy by the combined effect of immunogenic cell death (ICD) and Mn 2+ ‐induced cyclic guanosine monophosphate (GMP)–adenosine monophosphate (AMP) synthase (cGAS)–stimulator of interferon genes (cGAS–STING) pathway, contributing great potential in the treatment of malignant tumors.

Topics & Concepts

Reactive oxygen speciesTumor microenvironmentThioredoxinCancer researchGlutathione peroxidaseChemistryBiochemistryCancer cellSuperoxide dismutaseCell biologyBiologyMaterials scienceEnzymeCancerTumor cellsGeneticsNanoplatforms for cancer theranosticsAdvanced Nanomaterials in CatalysisExtracellular vesicles in disease
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