An ESIPT-based NIR-emitting ratiometric fluorescent probe for monitoring hydrogen peroxide in living cells and zebrafish

Hydrogen peroxide (H2O2) is closely related to a variety of human diseases. It is a challenge to dynamically monitor biological H2O2 activity. Hence, we design and prepare a NIR-emitting ratiometric fluorescent probe (HBQ-B) for detecting H2O2 according to the excited-state intramolecular proton transfer (ESIPT) mechanism using the benzyl bomnic pinacol ester group as a recognition unit. HBQ-B displayed specificity toward H2O2 over other bioactive analytes. Meanwhile, HBQ-B exhibited a good linear relationship between the fluorescence ratio (I-656/I-530) changes and the concentrations of H2O2 (0-10 mu M). HBQ-B also showed a large Stokes shift (234 nm) and a marked detection limit (40.2 nM). HBQ-B was utilized to image the intracellular H2O2 in living MCF-7 cells, HeLa cells and macrophages (RAW 264.7 cells), respectively. In addition, HBQ-B was used to monitor the dynamics of H2O2 level changes during zebrafish development.

Automated summary

HBQ-B is a NIR-emitting ratiometric fluorescent probe designed to detect H2O2 with specificity and a linear relationship. It can be used for imaging intracellular H2O2 in various types of cells and monitoring the dynamics of H2O2 level changes during zebrafish development.