Litcius/Paper detail

Lysosomal-targeted fluorescent probe based pH regulating reactivity for tracking cysteine dynamics under oxidative stress

Tao Liu, Xuwei Han, Wenjing Zhao, Ke Gao, Runan Min, Yuting Tian, Xueyi Sun, Caixia Yin

2024Journal of Materials Chemistry B11 citationsDOI

Abstract

The ability to detect and visualize cellular events and associated biological analytes is essential for the understanding of their physiological and pathological functions. Cysteine (Cys) plays a crucial role in biological systems and lysosomal homeostasis. This puts forward higher requirements on the performance of the probe. Herein, we rationally designed a coumarin-based probe for the reversible, specific, sensitive, and rapid detection of Cys based on pH regulating reactivity. The obtained probe (ECMA) introduces a morpholine moiety to target lysosomes, and α,β-unsaturated-ketone with an electron-withdrawing CN group served as a reversible reaction site for Cys. Importantly, ECMA was successfully applied to the real-time monitoring of Cys dynamics in living cells. Furthermore, cell imaging clearly revealed that exogenous Cys could induce the up-regulation of lysosomal ROS, which provided a powerful tool for investigating the relationship between oxidative stress and lysosomal Cys.

Topics & Concepts

Oxidative stressFluorescenceCysteineReactivity (psychology)BiophysicsTracking (education)Oxidative phosphorylationChemistryMaterials scienceCell biologyBiochemistryNanotechnologyBiologyMedicinePathologyPhysicsEnzymePsychologyOpticsPedagogyAlternative medicineBiomedical Research and PathophysiologyAmino Acid Enzymes and MetabolismSulfur Compounds in Biology