Metal Phenolic Network-Integrated Multistage Nanosystem for Enhanced Drug Delivery to Solid Tumors

Yuhao Gao, Si-Cong Yang, Mao-Hua Zhu, Xin-Di Zhu, Xin Luan, Xue-Liang Liu, Xing Lai, Yihang Yuan, Qin Lu, Peng Sun, Jonathan F. Lovell, Hong-Zhuan Chen, Chao Fang

Journal:Small

IF:13.28

DOI:10.1002/smll.202100789

PMID:34142432

Published:2021-06-17

research field:

Abstract

Metal-phenolic networks (MPNs) are an emerging class of supramolecular surface modifiers with potential use in various fields including drug delivery. Here, the development of a unique MPN-integrated core-satellite nanosystem (CS-NS) is reported. The “core” component of CS-NS comprises a liposome loaded with EDTA (a metal ion chelator) in the aqueous core and DiR (a near-infrared photothermal transducer) in the bilayer. The “satellite” component comprises mesoporous silica nanoparticles (MSNs) encapsulating doxorubicin and is coated with a Cu 2+ -tannic acid MPN. Liposomes and MSNs self-assemble into the CS-NS through adhesion mediated by the MPN. When irradiated with an 808 nm laser, CS-NS liberated the entrapped EDTA, leading to Cu 2+ chelation and subsequent disassembly of the core-satellite nanostructure. Photo-conversion from the large assembly to the small constituent particles proceeded within 5 min. Light-triggered CS-NS disassembly enhanced the carrier and cargo penetration and accumulation in tumor spheroids in vitro and in orthotopic murine mammary tumors in vivo. CS-NS is long circulating in the blood and conferred improved survival outcomes to tumor-bearing mice treated with light, compared to controls. These results demonstrate an MPN-integrated multistage nanosystem for improved solid tumor treatment.

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