自猝灭近红外纳米颗粒的细胞内蛋白水解解组装，用于肿瘤靶向成像的荧光开启。

Intracellular Proteolytic Disassembly of Self-Quenched Near-Infrared Nanoparticles Turning Fluorescence on for Tumor-Targeted Imaging.

机构信息

CAS Key Laboratory of Soft Matter Chemistry, Department of Chemistry, University of Science and Technology of China , 96 Jinzhai Road, Hefei, Anhui 230026, China.

Liver Immunology Laboratory, Institute of Immunology and School of Life Sciences, University of Science and Technology of China , Hefei, Anhui 230027, China.

出版信息

Anal Chem. 2017 Sep 19;89(18):9625-9628. doi: 10.1021/acs.analchem.7b02971. Epub 2017 Sep 7.

DOI:10.1021/acs.analchem.7b02971

PMID:28874046

Abstract

The design of tumor-targeting, intracellular protease-activatable near-infrared fluorescence (NIRF) nanoprobes is broadly interesting but remains challenging. In this work, we report the rational design of a NIR probe Cys(StBu)-Lys(Biotin)-Lys-Lys(Cy5.5)-CBT (1) to facilely prepare the self-quenched nanoparticles 1-NPs for tumor-targeted imaging in vitro and in vivo. The biotinylated 1-NPs could be actively uptaken by biotin receptor-overexpressing tumor cells via receptor-mediated endocytosis. Upon intracellular proteolytic cleavage, 1-NPs were disassembled to yield the small molecular probe Lys(Cy5.5)-Luciferin-Lys(Biotin)-Lys-OH (1-D-cleaved), accompanied by fluorescence "Turn-On". With this NIRF "Turn-On" property, 1-NPs were successfully applied for tumor-targeted imaging. We envision that our nanoparticles could be applied for fluorescence-guided tumor surgery in the near future.

摘要

肿瘤靶向、细胞内蛋白酶激活近红外荧光（NIRF）纳米探针的设计具有广泛的研究意义，但仍具有挑战性。在本工作中，我们报告了一种 NIR 探针 Cys(StBu)-Lys(Biotin)-Lys-Lys(Cy5.5)-CBT（1）的合理设计，可方便地制备自猝灭纳米颗粒 1-NPs，用于体外和体内的肿瘤靶向成像。带有生物素的 1-NPs 可通过受体介导的内吞作用被过表达生物素受体的肿瘤细胞主动摄取。在细胞内蛋白水解切割后，1-NPs 被分解为小分子探针 Lys(Cy5.5)-萤光素-Lys(Biotin)-Lys-OH（1-D-切割），同时伴随着荧光“开启”。利用这种 NIRF“开启”特性，1-NPs 成功地应用于肿瘤靶向成像。我们设想，我们的纳米颗粒在不久的将来可以用于荧光引导的肿瘤手术。

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自猝灭近红外纳米颗粒的细胞内蛋白水解解组装，用于肿瘤靶向成像的荧光开启。

Intracellular Proteolytic Disassembly of Self-Quenched Near-Infrared Nanoparticles Turning Fluorescence on for Tumor-Targeted Imaging.

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