A difunctional fluorescent probe to detect hypochlorite and hydrogen sulfide ions in ferroptosis and oxidative stress induced by Aspirin

Abstract

HOCl and H2S frequently coexist in living cells and work in concert to maintain the redox dynamic balance in vivo. It is challenging to precisely and simultaneously trace both HOCl and H2S using a single recognition-type fluorescence probe. Here, a novel fluorescent probe (MB-HS) for the selective detection of hydrogen sulphide (H2S) and hypochlorous acid (HOCl) has been established based on the coupling of the methylene blue fraction and the indolium fraction. For HOCl, the dual-signal probe MB-HS displays quick turn-on fluorescence responses. However, for H2S, it exhibits turn-off fluorescence at 586 nm and turn-on at 513 nm, respectively. MB-HS showed many advantages such as quick response, strong selectivity, and high sensitivity. It was effectively used to detect endogenous HOCl/H2S in ferroptosis and oxidative stress induced by Aspirin in HepG-2 cells.