Renin imprinted Poly(methyldopa) for biomarker detection and disease therapy

Conventional molecularly imprinted polymers (MIPs) perform their functions principally depended on their three dimensional (3D) imprinted cavities (recognition sites) of templates. Here, retaining the function of recognition sites resulted from the imprinting of template molecules, the role of funct...

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Bibliographic Details
Published in:Biosensors & bioelectronics 2024-06, Vol.254, p.116225-116225, Article 116225
Main Authors: Sun, Xiaofeng, Hu, Tianqing, Bai, Yuexia, Cao, Tianyu, Wang, Shuai, Hu, Wei, Yang, Huan, Luo, Xiliang, Cui, Min
Format: Article
Language:English
Subjects:
Biomarker detection
Disease therapy
Dual-functional molecularly imprinted polymer
Renin imprinted poly(methyldopa)
Synthesis regulating
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Summary:Conventional molecularly imprinted polymers (MIPs) perform their functions principally depended on their three dimensional (3D) imprinted cavities (recognition sites) of templates. Here, retaining the function of recognition sites resulted from the imprinting of template molecules, the role of functional monomers is explored and expanded. Briefly, a class of dual-functional renin imprinted poly(methyldopa) (RMIP) is prepared, consisting of a drug-type function monomer (methyldopa, clinical high blood pressure drug) and a corresponding disease biomarker (renin, biomarker for high blood pressure disease). To boost target-to-receptor binding ratio and sensitivity, the microstructure of recognition sites is beforehand calculated and designed by Density Functional Theory calculations, and the whole interfacial structure, property and thickness of RMIP film is regulated by adjusting the polymerization techniques. The dual-functional applications of RMIP for biomarker detection and disease therapy in vivo is explored. Such RMIP-based biosensors achieves highly sensitive biomarker detection, where the LODs reaches down to 1.31 × 10−6 and 1.26 × 10−6 ng mL−1 for electrochemical and chemical polymers, respectively, and the application for disease therapy in vivo has been verified where displays the obviously decreased blood pressure values of mice. No acute and long-term toxicity is found from the pathological slices, declaring the promising clinical application potential of such engineered RMIP nanostructure.
ISSN:0956-5663
1873-4235
DOI:10.1016/j.bios.2024.116225