Issue 42, 2021

Mitochondria targeted composite enzyme nanogels for synergistic starvation and photodynamic therapy

Abstract

Mitochondria, as the energy factory of cells, often maintain a high redox state, and play an important role in cell growth, development and apoptosis. Therefore, the destruction of mitochondrial redox homeostasis has now become an important direction for cancer treatment. Here, we design a mitochondrial targeting composite enzyme nanogel bioreactor with a circulating supply of O2 and H2O2, which is composed of mitochondrial target triphenylphosphine (TPP), natural enzymes glucose oxidase (GOX) and catalase (CAT), and protoporphyrin IX (PpIX). The nanogel can effectively increase the stability of the natural enzymes, and its size of about 65 nm makes them close in space, which greatly improves their cascade catalytic efficiency and safety. Under the action of target TPP, the system can accurately target the mitochondria of breast cancer 4T1 cells, catalyze intracellular glucose to generate H2O2 through GOX, and H2O2 is further used as a catalytic substrate for CAT to generate O2. This O2 can not only further improve the catalytic efficiency of GOX, but also provide raw materials for the production of ROS in PDT, which can effectively destroy the mitochondria of cancer cells, thereby causing tumor cell apoptosis. Compared with GOX alone, thanks to the close spatial position of the composite enzymes, the composite enzyme nanogel can quickly consume the highly oxidative H2O2 produced by GOX, thereby showing better safety to normal cells. In addition, the composite enzyme group under light showed excellent antitumor effects by combining starvation therapy and PDT under adequate oxygen supply in animal experiments. In general, this composite enzyme nanogel system with good stability, high safety and excellent cascade catalytic efficiency opens a new way for the development of safe and efficient cancer therapeutics.

Graphical abstract: Mitochondria targeted composite enzyme nanogels for synergistic starvation and photodynamic therapy

Supplementary files

Article information

Article type
Communication
Submitted
21 9 2021
Accepted
29 9 2021
First published
30 9 2021

Nanoscale, 2021,13, 17737-17745

Mitochondria targeted composite enzyme nanogels for synergistic starvation and photodynamic therapy

Z. Luo, X. Fan, Y. Chen, X. Lai, Z. Li, Y. Wu and C. He, Nanoscale, 2021, 13, 17737 DOI: 10.1039/D1NR06214J

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