Issue 9, 2025
From the journal:

Materials Chemistry Frontiers

Engineering a versatile nanoscale COF-based multienzyme loading strategy to enhance cancer therapy

Wen-Xiu Ren,a   Qing-Yun Huang,a   Jie Feng, ORCID logo *a   Yue-Lu Tian,a   Ya-Ni Wu,a   Seeram Ramakrishna ORCID logo b  and  Yu-Bin Dong ORCID logo a  

* Corresponding authors

a College of Chemistry, Chemical Engineering and Materials Science, Collaborative Innovation Center of Functionalized Probes for Chemical Imaging in Universities of Shandong, Key Laboratory of Molecular and Nano Probes, Ministry of Education, Shandong Normal University, Jinan, China
E-mail: jiefeng@sdnu.edu.cn

b Centre for Nanotechnology and Sustainability, Department of Mechanical Engineering, National University of Singapore, Singapore

Abstract

Herein, a simple and efficient in situ assembly approach for immobilizing enzymes within nanoscale COFs under ambient conditions is presented. This approach is versatile and can be applied to immobilize a wide range of enzymes. More importantly, a dual-enzyme-loaded COF is synthesized using this in situ assembly method, followed by coating it with MnO2 to create GOx&HRP@COF@MnO2. Of note, GOx&HRP@COF@MnO2 exhibits remarkable therapeutic efficacy, which can be attributed to the synergistic effect of the Mn2+-induced Fenton-like reaction and the cascade enzyme-catalyzed reaction mediated by GOx and HRP. Its significant therapeutic efficacy was validated through both in vitro and in vivo experiments.

Graphical abstract: Engineering a versatile nanoscale COF-based multienzyme loading strategy to enhance cancer therapy

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Article information

DOI
https://doi.org/10.1039/D4QM01129E
Article type
Research Article
Submitted
24 Kax 2024
Accepted
04 Cig 2025
First published
04 Cig 2025

Mater. Chem. Front., 2025,9, 1364-1374

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Engineering a versatile nanoscale COF-based multienzyme loading strategy to enhance cancer therapy

W. Ren, Q. Huang, J. Feng, Y. Tian, Y. Wu, S. Ramakrishna and Y. Dong, Mater. Chem. Front., 2025, 9, 1364 DOI: 10.1039/D4QM01129E

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