用于透明质酸-量子点缀合物靶向递释的活体实时共聚焦显微镜技术

In vivo real-time confocal microscopy for target-specific delivery of hyaluronic acid-quantum dot conjugates.

机构信息

Department of Materials Science and Engineering, Pohang University of Science and Technology Pohang, Republic of Korea.

出版信息

Nanomedicine. 2012 Oct;8(7):1070-3. doi: 10.1016/j.nano.2012.05.014. Epub 2012 Jun 9.

DOI:10.1016/j.nano.2012.05.014

PMID:22687895

Abstract

UNLABELLED

Hyaluronic acid (HA), which is a biocompatible, biodegradable, and linear polysaccharide in the body, has been widely used for various biomedical applications. In this work, real-time bioimaging for target-specific delivery of HA derivatives was carried out using quantum dots (QDs). In vitro confocal microscopy of HA-QD conjugates confirmed the intracellular delivery of HA derivatives to B16F1 cells with HA receptors by HA-receptor-mediated endocytosis. Furthermore in vivo real-time confocal microscopy of HA-QD conjugates successfully visualized the target specific delivery and accumulation of HA-QD conjugates from the fluorescence-labeled blood vessels to the liver tissues. The authors could confirm the feasibility of HA derivatives as a target-specific intracellular drug-delivery carrier for the treatment of liver diseases and the in vivo real-time confocal microscopy as a new bioimaging tool for various drug-delivery applications.

FROM THE CLINICAL EDITOR

This study demonstrates the possibility of labeling hyaluronic acid with quantum dots for visualization and for targeted intracellular drug delivery in liver disease models.

摘要

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透明质酸（HA）是一种生物相容性、可生物降解的线性多糖，已广泛应用于各种生物医学领域。本工作使用量子点（QD）对 HA 衍生物的靶向特异性递药进行实时生物成像。HA-QD 缀合物的体外共聚焦显微镜观察证实了 HA 衍生物通过 HA 受体介导的内吞作用被细胞内化到具有 HA 受体的 B16F1 细胞内。此外，HA-QD 缀合物的体内实时共聚焦显微镜成功地可视化了 HA-QD 缀合物从荧光标记的血管到肝组织的靶向特异性递药和蓄积。作者证实了 HA 衍生物作为治疗肝脏疾病的靶向细胞内药物递药载体的可行性，以及体内实时共聚焦显微镜作为各种药物递药应用的新型生物成像工具的可行性。

临床编辑按语

本研究表明，通过量子点对透明质酸进行标记，有可能可视化并在肝脏疾病模型中靶向细胞内递药。

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用于透明质酸-量子点缀合物靶向递释的活体实时共聚焦显微镜技术

In vivo real-time confocal microscopy for target-specific delivery of hyaluronic acid-quantum dot conjugates.

机构信息

出版信息

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