Bidirectional Regulation of Intracellular Enzyme Activity Using Light‐Driven Nano‐Inhibitors

Author:

Zhao Yu12,Huang Qingqing1,Li Qiushi1,Chen Zihan1,Liu Yang1ORCID

Affiliation:

1. Key Laboratory of Functional Polymer Materials of Ministry of Education State Key Laboratory of Medicinal Chemical Biology Frontiers Science Center for New Organic Matter College of Chemistry Nankai University Tianjin 300071 P. R. China

2. Meinig School of Biomedical Engineering Cornell University Ithaca NY 14853 USA

Abstract

AbstractPhotochemical regulation provides precise control over enzyme activities with high spatiotemporal resolution. A promising approach involves anchoring “photoswitches” at enzyme active sites to modulate substrate recognition. However, current methods often require genetic mutations and irreversible enzyme modifications for the site‐specific anchoring of “photoswitches”, potentially compromising the enzyme activities. Herein, we present a pioneering reversible nano‐inhibitor based on molecular imprinting technique for bidirectional regulation of intracellular enzyme activity. The nano‐inhibitor employs a molecularly imprinted polymer nanoparticle as its body and azobenzene‐modified inhibitors (“photoswitches”) as the arms. By using a target enzyme as the molecular template, the nano‐inhibitor acquires oriented binding sites on its surface, resulting in a high affinity for the target enzyme and non‐covalently firm anchoring of the azobenzene‐modified inhibitor to the enzyme active site. Harnessing the reversible isomerization of azobenzene units upon exposure to ultraviolet and visible light, the nano‐inhibitor achieves bidirectional enzyme activity regulation by precisely docking and undocking inhibitor at the active site. Notably, this innovative approach enables the facile in situ regulation of intracellular endogenous enzymes, such as carbonic anhydrase. Our results represent a practical and versatile tool for precise enzyme activity regulation in complex intracellular environments.

Funder

National Natural Science Foundation of China

Publisher

Wiley

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