Despite many nano-based strategies devoted to delivering cisplatin for tumor therapy, its clinical benefits are compromised by poor tissue penetration and limited DNA adducts formation of the drug. Herein, a cisplatin loading nanomotor based janus structured Ag-polymer is developed for cisplatin delivery of deeper tissue and increased DNA adducts formation. The nanomotor displayed a self-propelled tumor penetration fueled by hydrogen peroxide (HO) in tumor tissues, which is catalytically decomposed into a large amount of oxygen bubbles by Ag nanoparticles (NPs). Notably, cisplatin could elevate the intracellular HO level through cascade reactions, further promote the degradation of Ag NPs accompanied with the Ag release, which could downregulate intracellular Cl through the formation of AgCl precipitate, thereby enhancing cisplatin dechlorination and Pt-DNA formation. Moreover, polymer can also inhibit the activity of ALKBH2 (a Fe-dependent DNA repair enzyme) by chelating intracellular Fe to increase the proportion of irreparable Pt-DNA cross-links. It is found that deep tissue penetration, as well as the increased formation and maintenance of Pt-DNA adducts induced by the nanomotor afford 80% of tumor growth inhibition with negligible toxicity. This work provides an important perspective of resolving chemotherapeutic barriers for boosting cisplatin therapy.
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| http://dx.doi.org/10.1186/s12951-022-01622-3 | DOI Listing |
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