A Turn-On Fluorescent Probe for Highly Selective Detection and Visualization of Hydrogen Sulfide in Fungi.

Hydrogen sulfide (H2S) is a significant actor in the virulence and pathogenicity of fungi. The analysis of endogenous H2S in fungi benefits the prevention and treatment of pathogenic infections. Herein, a H2S-activated turn-on fluorescent probe named DDX-DNP was developed for the sensitive and selective detection of H2S. Using DDX-DNP, the ability of several oral fungi strains to produce H2S was identified, which was also validated using a typical chromogenic medium. In addition, DDX-DNP was successfully used for the visual sensing of endogenous H2S in fungal cells via microscope, flow cytometry, and colony imaging, along with a specific validation with the co-incubation of H2S production inhibitors in living cells. Above all, DDX-DNP could be used for H2S detection, the fluorescent imaging of fungi, and even the identification of related fungi.

Rational design of a NIR fluorescent probe for carboxylesterase 1 detection during endoplasmic reticulum stress and drug-induced acute liver injury.

An endoplasmic reticulum targeting NIR fluorescent probe (ERBM) was developed for real-time monitoring of carboxylesterase 1 (CES1) and exhibited excellent ER location in living cell imaging. In addition, ERBM was applied to illustrate the regulation characteristics of CES1 under ER stress and acute liver injury models at the cell and animal level.

Mitochondria targeting fluorescent probe for MAO-A and the application in the development of drug candidate for neuroinflammation.

Monoamine oxidase A (MAO-A), as a vital drug target for various central nervous system diseases, locates in mitochondria and is mainly responsible for the oxidative inactivation of neurotransmitter amines. In the present work, a Mito-targeting fluorescent probe (HCCP) was developed to selectively and sensitively detect MAO-A activity, and successfully applied for the real-time monitoring endogenous MAO-A in living cells and tissues. Additionally, a high-throughput screening platform was established using HCCP and the inhibitory effects of 210 kinds of Herbal medicines toward MAO-A were evaluated. Evocarpine as a novel inhibitor for MAO-A was discovered from Evodia rutaecarpa, which possessed the preferred anti-neuroinflammation activity by suppressing the iNOS expression and NO production in LPS-induced BV2 cells bioactivation. In summary, HCCP was a novel Mito-targeting tool for the real-time imaging of MAO-A, provided an efficient method for real-time exploring of physiological functions of MAO-A and developing potential inhibitors of MAO-A.