肽载体将芘携带至细胞器，可通过时间分辨荧光显微镜对线粒体中的自由基进行实时定量分析。

Peptide Vectors Carry Pyrene to Cell Organelles Allowing Real-Time Quantification of Free Radicals in Mitochondria by Time-Resolved Fluorescence Microscopy.

作者信息

Wawi Mohamad Jamal, Bijoux Amandine, Inguimbert Nicolas, Mahler Christoph, Wagner Stephan, Marder Todd B, Ribou Anne-Cécile

机构信息

Institute of Modeling and Analysis in Geo-environmental and Health (IMAGES_ESPACE-DEV), Université de Perpignan Via Domitia, Bât. B, 52 avenue P. Alduy, 66860, Perpignan, France.

ESPACE-DEV, UMR 228, Univ. Montpellier, IRD, Univ. Antilles, Univ. Guyane, Univ. Réunion, Maison de la télédétection, 500 rue Jean-François Breton, 34093, Montpellier, Cedex 5, France.

出版信息

Chembiochem. 2021 May 4;22(9):1676-1685. doi: 10.1002/cbic.202000845. Epub 2021 Feb 4.

DOI:10.1002/cbic.202000845

PMID:33368947

Abstract

Real-time quantification of reactive nitrogen and oxygen species (ROS) in cells is of paramount importance as they are essential for cellular functions. Their excessive formation contributes to the dysfunction of cells and organisms, ultimately leading to cell death. As ROS are mostly produced in the mitochondria, we have synthesized a fluorescent probe able to reach this organelle to detect and quantify, in real time, the variation of ROS by time-resolved microfluorimetry. The new probes are based on the long fluorescence lifetime of pyrene butyric acid (PBA). Two PBA isomers, attached at their 1- or 2-positions to a peptide vector to target mitochondria, were compared and were shown to allow the measurement of free radical species and oxygen, but not non-radical species such as H O .

摘要

实时定量细胞中的活性氮和氧物种（ROS）至关重要，因为它们对细胞功能必不可少。它们的过度形成会导致细胞和生物体功能障碍，最终导致细胞死亡。由于ROS大多在线粒体中产生，我们合成了一种荧光探针，该探针能够到达该细胞器，通过时间分辨微荧光法实时检测和定量ROS的变化。新探针基于芘丁酸（PBA）的长荧光寿命。比较了两种在其1位或2位连接到靶向线粒体的肽载体上的PBA异构体，结果表明它们能够测量自由基物种和氧，但不能测量非自由基物种，如H₂O₂ 。