Bioinspired design of highly specific fluorescent probe for butyrylcholinesterase imaging in living cells and Alzheimer's disease model

Butyrylcholinesterase (BChE) is associated with many neurodegenerative diseases, especially Alzheimer's disease (AD). Developing specific imaging tools for BChE is now highly pursued because BChE has substantially similar biochemical properties to acetylcholinesterase (AChE) but distinct roles in AD. Inspired by the BChE-catalyzed hydrolysis of specific substrates (benzoylcholine, tetracaine, and cocaine) containing benzoyl group in physiological condition, a bioinspired probe PM1 with high specificity towards BChE was designed. The docking models indicated that PM1 could easily access the active center of BChE rather than AChE, showing the significance of benzoyl group in specific recognition of BChE. The control probes PM2–5 with smaller recognition groups displayed lower specificity to BChE than PM1, showing the high efficiency of the bioinspired design strategy. The living cells experiments showed that PM1 signals were weakened by BChE inhibitor but not influenced by AChE inhibitor, which was in contrast to the performance of probe PM2–5, showing the specific recognition of PM1 for BChE in biological system. Moreover, PM1 has been used to study the positive correlation between BChE level and cell apoptosis for the first time, and the further study showed that Aβ deposition could induce the increase in BChE level and accompany the occurrence of cell apoptosis. Notably, PM1 was successfully traced the enhancement of BChE activity in the brain slice of AD mouse model. Such a rational approach may provide a solid basis for designing specific probes with different properties to study BChE in biosystems.