H2S is a gaseous signaling molecule that is involved in many physiological and pathological processes. In general, the level of intracellular H2S (<1 μM) is much lower than that of GSH (∼1-10 mM), leading to the remaining challenge of selective detection and differentiation of endogenous H2S in live biosystems. To this end, we quantitatively demonstrate that the thiolysis of NBD amine has much higher selectivity for H2S over GSH than that of the reduction of aryl azide. Subsequently, we developed the first NBD-based cell-trappable probe 1 (AM-BODIPY-NBD) for highly selective and ultrasensitive imaging of intracellular H2S. Probe 1 demonstrates a 207-fold fluorescence enhancement at 520 nm after reaction with H2S/esterase to produce a bright BODIPY (quantum yield 0.42) and a detection limit of 15.7 nM. Probe 1 is water-soluble, cell-trappable, and not cytotoxic. Based on this excellent chemical tool, relative levels of basal H2S in different cell lines were measured to reveal a positive correlation between endogenous H2S and the metastatic potential of colon and breast cancer cells. In addition, H2S biogenesis in vivo was also validated by probe 1 both in tobacco leaves under viral infection and in zebrafish after tail amputation. It is anticipated that probe 1 will have widespread applications in imaging and for investigating different H2S-related biological processes and diseases.

原文地址：http://www.ncbi.nlm.nih.gov/pubmed/35019257