一种用于具有改善的单线态氧生成特性的双光子光敏剂的“多重金属原子”方法。

A "Multi-Heavy-Atom" Approach toward Biphotonic Photosensitizers with Improved Singlet-Oxygen Generation Properties.

作者信息

Galland Margaux, Le Bahers Tangui, Banyasz Akos, Lascoux Noëlle, Duperray Alain, Grichine Alexei, Tripier Raphaël, Guyot Yannick, Maynadier Marie, Nguyen Christophe, Gary-Bobo Magali, Andraud Chantal, Monnereau Cyrille, Maury Olivier

机构信息

Laboratoire de Chimie de l'ENS de Lyon, Univ Lyon, ENS de Lyon, CNRS UMR 5182, Université Claude Bernard Lyon 1, 69342, Lyon, France.

INSERM, U1209, Université Grenoble Alpes, IAB, 38000, Grenoble, France.

出版信息

Chemistry. 2019 Jul 5;25(38):9026-9034. doi: 10.1002/chem.201901047. Epub 2019 May 30.

DOI:10.1002/chem.201901047

PMID:30972809

Abstract

Two trispicolinate 1,4,7-triazacyclonane (TACN)-based ligands bearing three picolinate biphotonic antennae were synthetized and their Yb and Gd complexes isolated. One series differs from the other by the absence (L )/presence (L ) of bromine atoms on the antenna backbone, offering respectively improved optical and singlet-oxygen generation properties. Photophysical properties of the ligands, complexes and micellar Pluronic suspensions were investigated. Complexes exhibit high two-photon absorption cross-section combined either with NIR emission (Yb) or excellent O generation (Gd). The very large intersystem crossing efficiency induced by the combination of bromine atom and heavy rare-earth element was corroborated with theoretical calculations. The O generation properties of L Gd micellar suspension under two-photon activation leads to tumour cell death, suggesting the potential of such structures for theranostic applications.

摘要

合成了两种基于三吡啶甲酸1,4,7-三氮杂环壬烷（TACN）的配体，它们带有三个吡啶甲酸双光子天线，并分离出了它们的镱（Yb）和钆（Gd）配合物。其中一个系列与另一个系列的不同之处在于天线主链上不存在（L）/存在（L）溴原子，分别提供了改善的光学性质和单线态氧生成性质。研究了配体、配合物和胶束状普朗尼克悬浮液的光物理性质。配合物表现出高双光子吸收截面，结合近红外发射（Yb）或优异的单线态氧生成（Gd）。溴原子和重稀土元素的组合所诱导的非常大的系间窜越效率得到了理论计算的证实。L Gd胶束悬浮液在双光子激活下的单线态氧生成性质导致肿瘤细胞死亡，表明这种结构在诊疗应用中的潜力。

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一种用于具有改善的单线态氧生成特性的双光子光敏剂的“多重金属原子”方法。

A "Multi-Heavy-Atom" Approach toward Biphotonic Photosensitizers with Improved Singlet-Oxygen Generation Properties.

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