A near-infrared fluorescent probe based on a hemi-cyanine skeleton for detecting CES1 activity and evaluating pesticide toxicity.

A novel near-infrared (NIR) fluorescent probe CHC-CES1 based on a hemi-cyanine skeleton for detecting carboxylesterase 1 (CES1) activity was developed. Herein, CHC-CES1 could be specifically hydrolysed to CHC-COOH along with a significant NIR fluorescence signal enhancement at 670 nm. Systematic evaluation indicated that CHC-CES1 possessed an outstanding selectivity and sensitivity towards CES1, and possessed good chemical stability in complex biosamples. Finally, CHC-CES1 was successfully used for the real-time imaging of endogenous CES1 activity in living cells. Moreover, CHC-CES1 was applied to evaluate the inhibitory effects of various pesticides towards CES1, and visually revealed the inhibitory effect of combined residue pesticides.