Issue 84, 2023

Progress in controllable bioorthogonal catalysis for prodrug activation

Abstract

Bioorthogonal catalysis, a class of catalytic reactions that are mediated by abiotic metals and proceed in biological environments without interfering with native biochemical reactions, has gained ever-increasing momentum in prodrug delivery over the past few decades. Albeit great progress has been attained in developing new bioorthogonal catalytic reactions and optimizing the catalytic performance of transition metal catalysts (TMCs), the use of TMCs to activate chemotherapeutics at the site of interest in vivo remains a challenging endeavor. To translate the bioorthogonal catalysis-mediated prodrug activation paradigm from flasks to animals, TMCs with targeting capability and stimulus-responsive behavior have been well-designed to perform chemical transformations in a controlled manner within highly complex biochemical systems, rendering on-demand drug activation to mitigate off-target toxicity. Here, we review the recent advances in the development of controllable bioorthogonal catalysis systems, with an emphasis on different strategies for engineering TMCs to achieve precise control over prodrug activation. Furthermore, we outline the envisaged challenges and discuss future directions of controllable bioorthogonal catalysis for disease therapy.

Graphical abstract: Progress in controllable bioorthogonal catalysis for prodrug activation

Article information

Article type
Feature Article
Submitted
31 aug 2023
Accepted
25 sep 2023
First published
25 sep 2023

Chem. Commun., 2023,59, 12548-12559

Progress in controllable bioorthogonal catalysis for prodrug activation

X. Liu, T. Huang, Z. Chen and H. Yang, Chem. Commun., 2023, 59, 12548 DOI: 10.1039/D3CC04286C

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