CJCU

Chem. J. Chinese Universities ›› 2026, Vol. 47 ›› Issue (4): 20260009.doi: 10.7503/cjcu20260009

• Review • Previous Articles    

Intelligent Response, Precision Activation: Novel Theranostic Strategies of Enzyme-responsive Aggregation-induced Emission Materials in Biomedicine

FANG Jinyu1,2, HUANG Hanwei1,2, SONG Hang3(), WU Qian1(), ZHAO Zheng2(), TANG Ben Zhong2   

  1. 1.Faculty of Materials Science,Shenzhen MSU?BIT University,Shenzhen 518000,China
    2.Guangdong Basic Research Center of Excellence for Aggregate Science,School of Science and Engineering,The Chinese University of Hong Kong(Shenzhen),Shenzhen 518172,China
    3.Department of Ophthalmology,Peking Union Medical College Hospital,Chinese Academy of Medical Sciences and Peking Union Medical College,Beijing 100730,China
  • Received:2026-01-01 Online:2026-04-10 Published:2026-03-05
  • Contact: SONG Hang, WU Qian, ZHAO Zheng E-mail:songhang@pumch.cn;wuqian@smbu.edu.cn;zhaozheng@cuhk.edu.cn
  • Supported by:
    the Guangdong Province University Innovation Team Program, China(2025KCXTD054);the Key-Area Research and Development Program of Guangdong Province, China(2024B0101040001);the Guangdong Basic Research Center of Excellence for Aggregate Science, the Science Technology Innovation Commission of Shenzhen Municipality, China(KQTD20210811090142053);the Guangdong Basic and Applied Basic Research Foundation, China(2023A1515110346);the Key Research and Development Project of Yunnan Province, China(202303AC100010)

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Abstract:

With the advancement of precision medicine, there is an urgent demand for in situ imaging and targeted therapy with high specificity and high sensitivity. Traditional fluorescent probes are often limited by aggregation-caused quenching effects and frequently suffer from issues such as high background signals, poor photostability, and insufficient specificity. Aggregation-induced emission(AIE) materials, with their unique characteristic of being “off”at the molecular level and “on” in the aggregated state, provide a new strategy for constructing high-performance biological fluorescent probes. Enzymes, serving as key biomarkers in disease processes, exhibit substrate specificity and high efficiency in biocatalytic reactions, making them an ideal trigger mechanism for achieving controllable response, precise fluorescence activation, and signal amplification at disease sites using AIE materials. This review comprehensively reviews the latest research progress in the interdisciplinary frontier of enzyme-responsive AIE materials for novel diagnostic and therapeutic strategies in biomedicine. Based on the physicochemical nature and structural characteristics of aggregates formed after enzyme response, we systematically categorize three molecular design strategies, with a focus on elucidating their design principles, response mechanisms, and significant achievements in the diagnosis and treatment of various major diseases, including tumor imaging and intraoperative navigation, diagnosis and treatment of bacterial and viral infections, diagnosis of neurodegenerative diseases, and theranostics. By enabling controllable “off-on” signal switching and targeted amplification, enzyme-responsive AIE materials demonstrate great potential in improving imaging signal-to-noise ratio, enhancing treatment precision, and achieving synergistic diagnosis and therapy. Finally, we analyze the current challenges in this field and provide an outlook on future development trends, particularly new design paradigms integrated with artificial intelligence.

Key words: Aggregation-induced emission, Enzyme-responsive fluorescent probe, Structure-property regulation of aggregate, Targeted diagnosis and therapy of disease

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