Synthesis and Evaluation of Tacrinocerins, Tacrine Hybrids with α-Onocerin from Phlegmariurus nummulariifolius (Blume) Ching, as a Novel Class of Acetylcholinesterase Inhibitor.

This study reports the synthesis and biological evaluation of tacrinocerins, a series of hybrid compounds derived from tacrine (1) and the natural product α-onocerin (2), which was isolated from the Thai club moss Phlegmariurus nummulariifolius (Blume) Ching. The primary aim was to develop potent and safe therapeutics for Alzheimer's disease (AD). The compounds were assessed for their inhibitory activity against acetylcholinesterase (AChE) and butyrylcholinesterase (BuChE), as well as their cytotoxicity and potential for cancer chemoprevention. The results showed that compound 8b was the most potent AChE inhibitor but exhibited high cytotoxicity to neuronal and hepatic cells, making it a better candidate for anticancer applications. Additionally, tacrinocerin 4u, which exhibited moderate AChE inhibition, low toxicity, and anticancer potential, makes it an attractive candidate for the development of safer therapeutic agents. Meanwhile, tacrinocerin 4c emerged as the most promising candidate for AD therapy, combining potent AChE inhibition with a favorable safety profile. It showed moderate to low toxicity to neuronal and hepatic cells, while also demonstrating significant anticancer activity against MOLT-3 cells and excellent multitarget chemopreventive potential. This research successfully identified 4c as a leading dual-action agent, providing a strong foundation for designing next-generation tacrinocerins with optimized therapeutic indices.