A novel fluorescent probe with a large Stokes shift for rapidly monitoring hypochlorous acid in living cells, zebrafish, and tobacco seedlings

Abstract

Hypochlorous acid (HClO), as a kind of reactive oxygen species, was produced in the normal aerobic metabolism of organisms. The right amount of HClO can kill invading organisms and fight infection. However, when the amount of HClO is too high, the homeostasis within cells could be disrupted, resulting in irreversible damage to the body. Therefore, HClO plays an important role in normal physiological activities. In this study, a fluorescent probe BTD-TM for monitoring HClO was designed and developed based on benzothiadiazole. When HClO was recognized, the atom S in the thiomorpholine group was oxidized to the sulfoxide structure. Probe BTD-TM showed the advantages of large Stokes shift (120 nm) with low detection limit (LOD = 0.414 μM), high sensitivity, and good stability. Probe BTD-TM was able to achieve the precise detection of endogenous hypochlorous acid with high sensitivity, covering the intracellular homeostasis response induced by n-acetylcysteine and the inflammatory model system triggered by lipopolysaccharide stimulation. At the same time, excellent detection performance was also demonstrated for the tracking of the addition of exogenous hypochlorous acid. In addition, bioimaging showed that BTD-TM could also be used to detect HClO in zebrafish and tobacco seedlings.