Detection and Bioimaging of Glutathione in Cells via a Turn-On Near-Infrared Fluorescent Nanoprobe Composed of Ag<sub>2</sub>S Quantum Dots and CoOOH Nanosheets
Haoyu Chen, Ying Tang, Jialing Gui, Peipei Li, Xiaohua Zhu, Cuiyan Wu, Peng Yin, Meiling Liu, Youyu Zhang, Shouzhuo Yao
Abstract
The variations of the microenvironment in cells are always associated with changes in the concentrations of some active species. However, visual detection of these species is still a challenge. In this work, near-infrared (NIR)-emitting fluorescent Ag 2 S quantum dots (Ag 2 S QDs) were synthesized via a rapid microwave reaction under normoxic conditions, which were utilized as sensitive fluorescent nanoprobes in sensing and bioimaging of glutathione (GSH) combined with CoOOH nanosheets (CoOOH NSs). The negatively charged Ag 2 S QDs can easily and effectively attach to the surface of CoOOH NSs to form the Ag 2 S QD/CoOOH nanoprobe through electrostatic interactions, accompanied by the quenching of the fluorescence of Ag 2 S QDs at 685 nm via the inner-filter effect (IFE). However, upon the addition of GSH, the fluorescence of Ag 2 S QDs was recovered due to the reduction of CoOOH NSs into Co 2+ by GSH. Meanwhile, the fluorescent emission wavelength shifts slightly, which may result from the ligand exchange reaction between GSH and d -penicillamine (DPA) to form comodified Ag 2 S QDs. Based on the low toxicity and high tissue penetration depth of the NIR fluorescence of the Ag 2 S QDs and the good biocompatibility of CoOOH NSs, the nanoprobe composed of Ag 2 S QDs and CoOOH NSs was successfully applied in bioimaging, which can distinguish the normal cells and cancer cells, the semiquantitative content of endogenous and exogenous GSH. The as-developed strategy not only provides a simple, convenient, cost-effective, and rapid platform for the diagnosis of clinical diseases related to GSH but shows great prospects in fluorescence-assisted surgery.