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Carrier-free nanoprodrug for p53-mutated tumor therapy via concurrent delivery of zinc-manganese dual ions and ROS

Jinping Wang, Chang Qu, Xinyue Shao, Guoqiang Song, Jingyu Sun, Donghong Shi, Ran Jia, Hailong An, Hongjun Wang

2022Bioactive Materials44 citationsDOIOpen Access PDF

Abstract

Human cancers typically express a high level of tumor-promoting mutant p53 protein (Mutp53) with a minimal level of tumor-suppressing wild-type p53 protein (WTp53). In this regard, inducing Mutp53 degradation while activating WTp53 is a viable strategy for precise anti-tumor therapy. Herein, a new carrier-free nanoprodrug (i.e., Mn-ZnO2 nanoparticles) was developed for concurrent delivery of dual Zn-Mn ions and reactive oxygen species (ROS) within tumor to regulate the p53 protein for high anti-tumor efficacy. In response to the mild tumor acidic environment, the released Zn2+ and H2O2 from Mn-ZnO2 NPs induced ubiquitination-mediated proteasomal degradation of Mutp53, while the liberative Mn2+ and increased ROS level activated the ATM-p53-Bax pathway to elevate WTp53 level. Both in vitro and in vivo results demonstrated that pH-responsive decomposition of Mn-ZnO2 NPs could effectively elevate the intracellular dual Zn-Mn ions and ROS level and subsequently generate the cytotoxic hydroxyl radical (•OH) through the Fenton-like reaction. With the integration of multiple functions (i.e., carrier-free ion and ROS delivery, tumor accumulation, p53 protein modulation, toxic •OH generation, and pH-activated MRI contrast) in a single nanosystem, Mn-ZnO2 NPs demonstrate its superiority as a promising nanotherapeutics for p53-mutated tumor therapy.

Topics & Concepts

Reactive oxygen speciesChemistryIn vitroIntracellularMutantManganeseZincIn vivoDegradation (telecommunications)UbiquitinBiophysicsCancer researchBiochemistryBiologyOrganic chemistryComputer scienceGeneTelecommunicationsBiotechnologyNanoplatforms for cancer theranosticsGraphene and Nanomaterials ApplicationsNanoparticle-Based Drug Delivery
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