Development of an activatable red emissive fluorescent probe for imaging hydrogen disulfide upregulation in living cells and zebrafish

Abstract

As a member of reactive sulfur molecules, hydrogen polysulfide (H2Sn) plays a vital role in cell protection, anti-oxidative stress and regulation of redox signaling. The highly selective and sensitive detection of H2Sn was still challenging due to its special nucleophilic and electrophilic reactivity. By incorporating phenyl 2-(benzoylthio) benzoate into semi-naphthofluorescein, we developed a novel red emissive fluorescent probe SNAFL-H2Sn for the detection of a representative H2Sn (e. g. H2S2). The addition of H2S2 would rapidly trigger SNAFL-H2Sn to produce significant turn-on fluorescence signal changes at 626 nm with a linear response over a range of 2–30 μM and a detection limit of 16 nM. SNAFL-H2Sn was capable of mapping exogenous and endogenous H2S2 in living cells and zebrafish. Moreover, SNAFL-H2Sn was applied to detect endogenous H2S2 under atorvastatin stimulation. The present study demonstrated that SNAFL-H2Sn potentially served as a promising tool for interrogating H2Sn functions in biological systems.