用于缺氧成像和增强型光动力疗法的可长期保留的自固定光敏剂。

IF 8.5 Q1 CHEMISTRY, MULTIDISCIPLINARY JACS Au Pub Date : 2024-10-03 eCollection Date: 2024-10-28 DOI:10.1021/jacsau.4c00787
Zifan Zhu, Yun Feng, Qiufen Tian, Jiawen Li, Chencong Liu, Yuchi Cheng, Sanjun Zhang, Yijing Dang, Jing Gao, Yi Lai, Fan Zhang, Haijun Yu, Wen Zhang, Zhiai Xu
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引用次数: 0

摘要

荧光成像引导光动力疗法(PDT)的精确治疗策略能有效减轻光敏剂对正常细胞和组织的不良影响。然而,光敏剂的低肿瘤富集度和高扩散性大大影响了成像的准确性和光动力疗法的效果。本研究开发了一种由硝基还原酶(NTR)激活的自固定光敏剂 CyNT-F,它在肿瘤组织中的富集能力更强,有利于缺氧肿瘤的精确、持续成像和局部放疗。CyNT-F 和 NTR 在原位发生酶促反应,生成高活性的甲酮醌,随后与邻近的蛋白质共价结合,产生荧光并激活 PDT。CyNT-F 在细胞内的保留时间较长(7 天),能有效抑制实体缺氧肿瘤的生长。我们相信,这种可激活和自固定的光导疗法是一种新型方法,可将不良反应降至最低,并实现对病变细胞和组织的时空精确消融。
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A Self-Immobilizing Photosensitizer with Long-Term Retention for Hypoxia Imaging and Enhanced Photodynamic Therapy.

The precise theranostic strategy of fluorescence imaging-guided photodynamic therapy (PDT) can effectively mitigate the adverse effect of photosensitizers in normal cells and tissues. However, low tumor enrichment and high diffusivity of photosensitizers significantly compromise the imaging accuracy and PDT effect. In this study, we have developed a nitroreductase (NTR)-activated and self-immobilizing photosensitizer CyNT-F, which showed enhanced enrichment in tumor tissues and facilitated precise and sustained imaging as well as PDT for hypoxia tumors. mPEG-b-PDPA nanomicelles encapsulating photosensitizers underwent dissociation and released CyNT-F in tumor cells. CyNT-F and NTR enzymatically reacted in situ to generate highly reactive quinone methide, subsequently covalently binding to adjacent proteins for fluorescence and PDT activation. CyNT-F exhibited longer intracellular retention (7 days) and effectively inhibited the tumor growth of solid hypoxia tumor. We believe the activatable and self-immobilizing strategy of PDT presents a novel methodology for minimizing the adverse effect and enabling spatiotemporally accurate ablation of diseased cells and tissues.

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