一种用于 NAD(P)H 的可激活近红外荧光探针及其在体内实时监测 p53 异常中的应用。

An Activatable NIR Fluorescent Probe for NAD(P)H and Its Application to the Real-Time Monitoring of p53 Abnormalities In Vivo.

机构信息

Key Laboratory of Chemical Biology and Molecular Engineering of Ministry of Education, Institute of Molecular Science, Shanxi University, Taiyuan, 030006, China.

Modern Research Center for Traditional Chinese Medicine, Shanxi University, Taiyuan, 030006, China.

出版信息

Angew Chem Int Ed Engl. 2023 May 2;62(19):e202301518. doi: 10.1002/anie.202301518. Epub 2023 Mar 28.

DOI:10.1002/anie.202301518

PMID:36867115

Abstract

NAD(P)H is crucial for biosynthetic reactions and antioxidant functions. However, the current probes developed for detecting NAD(P)H in vivo require intratumoral injection, which limited their application for animal imaging. To address this issue, we have developed a liposoluble cationic probe, KC8, which exhibits excellent tumor-targeting ability and near-infrared (NIR) fluorescence after reaction with NAD(P)H. By using KC8, it was demonstrated for the first time that the level of NAD(P)H in the mitochondria of living colorectal cancer (CRC) cells was highly related to the abnormality of the p53. Furthermore, KC8 was successfully used to differentiate not only between tumor and normal tissue but also between tumors with p53 abnormality and normal tumors when administered intravenously. Finally, we evaluated tumor heterogeneity through two fluorescent channels after treating a tumor with 5-Fu. This study provides a new tool for real-time monitoring of the p53 abnormality of CRC cells.

摘要

NAD(P)H 对于生物合成反应和抗氧化功能至关重要。然而，目前用于体内检测 NAD(P)H 的探针需要进行肿瘤内注射，这限制了它们在动物成像中的应用。为了解决这个问题，我们开发了一种亲脂性阳离子探针 KC8，它在与 NAD(P)H 反应后表现出优异的肿瘤靶向能力和近红外（NIR）荧光。通过使用 KC8，首次证明了活结直肠癌细胞（CRC）中线粒体中 NAD(P)H 的水平与 p53 异常高度相关。此外，当静脉内给药时，KC8 不仅成功地区分了肿瘤和正常组织，而且还区分了具有 p53 异常的肿瘤和正常肿瘤。最后，我们通过用 5-Fu 处理肿瘤后通过两个荧光通道评估了肿瘤异质性。这项研究为实时监测 CRC 细胞的 p53 异常提供了一种新工具。

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一种用于 NAD(P)H 的可激活近红外荧光探针及其在体内实时监测 p53 异常中的应用。

An Activatable NIR Fluorescent Probe for NAD(P)H and Its Application to the Real-Time Monitoring of p53 Abnormalities In Vivo.

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