Issue 21, 2020

Nanoscale dual-enzyme cascade metal–organic frameworks through biomimetic mineralization as ROS generators for synergistic cancer therapy

Abstract

Chemodynamic therapy (CDT) has been critically challenged by insufficient H2O2 in cancer tissues and inefficient reactive oxygen species (ROS) production. Herein, we have reported the facile synthesis of an efficient ROS generator (GOx@Pd@ZIF-8) that exerts synergistic anticancer activity by blocking glucose metabolism and producing ROS. Glucose oxidase (GOx) and palladium (Pd) cube nanozymes were incorporated in zeolitic imidazolate framework-8 (ZIF-8) by biomimetic mineralization. Systematic characterization indicated the successful entrapment and embedding of GOx and Pd during ZIF-8 crystal growth. The GOx@Pd@ZIF-8 composite showed favorable catalytic glucose activity and stable ROS production. In vitro experiments showed that the GOx@Pd@ZIF-8 composite effectively inhibited cancer cell proliferation, invasion, and migration and promoted apoptosis through the ROS-mediated signaling pathway, which was further confirmed by bioinformatics analyses of RNA-seq data obtained from in vitro experiments. Furthermore, the GOx@Pd@ZIF-8 composite inhibited tumor growth with few to no side effects on other tissues in vivo. This work provides a novel antitumor strategy involving the construction of a stable and highly active ROS generator that shows promise for the treatment of solid cancers.

Graphical abstract: Nanoscale dual-enzyme cascade metal–organic frameworks through biomimetic mineralization as ROS generators for synergistic cancer therapy

Supplementary files

Article information

Article type
Paper
Submitted
10 Feb 2020
Accepted
21 Apr 2020
First published
21 Apr 2020

J. Mater. Chem. B, 2020,8, 4620-4626

Nanoscale dual-enzyme cascade metal–organic frameworks through biomimetic mineralization as ROS generators for synergistic cancer therapy

S. Jin, L. Weng, Z. Li, Z. Yang, L. Zhu, J. Shi, W. Tang, W. Ma, H. Zong and W. Jiang, J. Mater. Chem. B, 2020, 8, 4620 DOI: 10.1039/D0TB00357C

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