使用比率型双光子荧光探针选择性追踪卵巢癌特异性γ-谷氨酰转肽酶

Selective tracking of ovarian-cancer-specific γ-glutamyltranspeptidase using a ratiometric two-photon fluorescent probe.

作者信息

Shi Ben, Zhang Zhenyu, Jin Qingqing, Wang Zhiqiang, Tang Jie, Xu Ge, Zhu Tianli, Gong Xueqing, Tang Xinjing, Zhao Chunchang

机构信息

Key Laboratory for Advanced Materials and Institute of Fine Chemicals, School of Chemistry and Molecular Engineering, East China University of Science & Technology, Shanghai 200237, P. R. China.

出版信息

J Mater Chem B. 2018 Dec 7;6(45):7439-7443. doi: 10.1039/c8tb01735b. Epub 2018 Oct 23.

DOI:10.1039/c8tb01735b

PMID:32254745

Abstract

Real-time tracking of GGT enzymatic activity in human ovarian cancer cells is a reliable method for accurate prediction of cancer diagnosis and management. Here, we report the two-photon ratiometric tracking of GGT activity in cancer cells based on a probe with switchable Förster resonance energy transfer properties. In the absence of GGT, the designed probe showed two well-resolved emission bands at 461 and 610 nm, corresponding to the 7-hydroxycoumarin donor and BODIPY acceptor, respectively. In contrast, GGT catalyzed cascade reactions including cleavage of the γ-glutamyl group and subsequent aromatic hydrocarbon transfer from the S to N atom increased the distance between the two chromophores, thus decreasing the FRET efficiency, with the recovery of the donor fluorescence at 461 nm. By exploiting this enzyme-triggered ratiometric measurement, successful differentiation of ovarian cancer cells from normal cells with this probe was realized by two-photon fluorescence confocal microscopy.

摘要

实时追踪人卵巢癌细胞中的γ-谷氨酰转移酶（GGT）酶活性是准确预测癌症诊断和治疗的可靠方法。在此，我们报告了基于具有可切换荧光共振能量转移特性的探针，对癌细胞中GGT活性进行双光子比率追踪。在不存在GGT的情况下，设计的探针在461和610 nm处显示出两个分辨率良好的发射带，分别对应于7-羟基香豆素供体和BODIPY受体。相反，GGT催化的级联反应包括γ-谷氨酰基的裂解以及随后芳烃从S原子到N原子的转移，增加了两个发色团之间的距离，从而降低了荧光共振能量转移效率，同时461 nm处供体荧光得以恢复。通过利用这种酶触发的比率测量，利用该探针通过双光子荧光共聚焦显微镜实现了卵巢癌细胞与正常细胞的成功区分。

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使用比率型双光子荧光探针选择性追踪卵巢癌特异性γ-谷氨酰转肽酶

Selective tracking of ovarian-cancer-specific γ-glutamyltranspeptidase using a ratiometric two-photon fluorescent probe.

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