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Hypoxia Reversion and STING Pathway Activation through Large Mesoporous Nanozyme for Near-Infrared-II Light Amplified Tumor Polymetallic-Immunotherapy

Chang Qu, Xinyue Shao, Ran Jia, Guoqiang Song, Donghong Shi, Hui Wang, Jinping Wang, Hailong An

2024ACS Nano37 citationsDOI

Abstract

cGAS/STING pathway, which is highly related to tumor hypoxia, is considered as a potential target for remodeling the immunosuppressive microenvironment of solid tumors. Metal ions, such as Mn 2+, activate the cGAS/STING pathway, but their efficacy in cancer therapy is limited by insufficient effect on immunogenic tumor cell death of a single ion. Here, we evaluate the association between tumor hypoxia and cGAS/STING inhibition and report a polymetallic-immunotherapy strategy based on large mesoporous trimetal-based nanozyme (AuPdRh) coordinated with Mn 2+ (Mn 2+ @AuPdRh) to activate cGAS/STING signaling for robust adaptive antitumor immunity. Specifically, the inherent CAT-like activity of this polymetallic Mn 2+ @AuPdRh nanozyme decomposes the endogenous H 2 O 2 into O 2 to relieve tumor hypoxia induced suppression of cGAS/STING signaling. Moreover, the Mn 2+ @AuPdRh nanozyme displays a potent near-infrared-II photothermal effect and strong POD-mimic activity; and the generated hyperthermia and • OH radicals synergistically trigger immunogenic cell death in tumors, releasing abundant dsDNA, while the delivered Mn 2+ augments the sensitivity of cGAS to dsDNA and activates the cGAS-STING pathway, thereby triggering downstream immunostimulatory signals to kill primary and distant metastatic tumors. Our study demonstrates the potential of metal-based nanozyme for STING-mediated tumor polymetallic-immunotherapy and may inspire the development of more effective strategies for cancer immunotherapy.

Topics & Concepts

ReversionImmunotherapyStingHypoxia (environmental)Materials scienceCancer researchMesoporous materialChemistryBiophysicsMedicineCatalysisBiologyImmune systemImmunologyBiochemistryOxygenAerospace engineeringOrganic chemistryGeneEngineeringPhenotypeNanoplatforms for cancer theranosticsinterferon and immune responsesImmune cells in cancer
Hypoxia Reversion and STING Pathway Activation through Large Mesoporous Nanozyme for Near-Infrared-II Light Amplified Tumor Polymetallic-Immunotherapy | Litcius