Multifunctional Doxorubicin@Hollow-Cu9S8 nanoplatforms for Photothermally-Augmented Chemodynamic-Chemo therapy.

DOX@H-Cu 9 S 8 /PEG with photothermal effect, Fenton-like catalytic performance, and drug-loading capacity serve as an efficient nanoplatform for photothermally-augmented chemodynamic-chemo therapy. [Display omitted] • Construction of hollow Cu 9 S 8 through Kirkendall effect and with high photothermal effect. • Enhanced Fenton reaction by NIR-driven photothermal effect. • Controlled DOX-releasing due to pH/photothermal effect. • High therapeutic efficacy from photothermally-augmented chemodynamic-chemo therapy. Multimodal therapy has attracted increasing interests in tumor treatment due to its high anti-cancer efficacy, and the key is to develop multifunctional nanoagents. The classic multifunctional nanoagents are made up of expensive and complex components, leading to limited practical applications. To solve these problems, we have developed the polyethylene glycol (PEG) coated hollow Cu 9 S 8 nanoparticles (H-Cu 9 S 8 /PEG NPs), whose H-Cu 9 S 8 component exhibits the photothermal effect for near-infrared (NIR) photothermal therapy (PTT), the Fenton-like catalytic activity for chemodynamic therapy (CDT), and the drug-loading capacity for chemotherapy. The H-Cu 9 S 8 /PEG NPs with a diameter of ∼ 100 nm have been synthesized by sulfurizing cuprous oxide (Cu 2 O) nanoparticles through "Kirkendall effect", and they exhibit high photothermal conversion efficiency of 40.9%. Meanwhile, the H-Cu 9 S 8 /PEG NPs are capable of a Fenton-like reaction, which can be augmented by 2 times under the NIR irradiation. The hollow structure gives the H-Cu 9 S 8 /PEG high doxorubicin (DOX) loading capacity (21.1%), and then the DOX release can be further improved by pH and photothermal effect. When the DOX@H-Cu 9 S 8 /PEG dispersions are injected into the tumor-bearing mice, the tumor growth can be efficiently inhibited due to the synergistic effect of photothermally-augmented CDT-chemo therapy. Therefore, the DOX@H-Cu 9 S 8 /PEG can serve as a multifunctional nanoplatform for photothermally-augmented CDT-chemo treatment of malignant tumors. [ABSTRACT FROM AUTHOR]