Design and synthesis of tacrine-phenothiazine hybrids as multitarget drugs for Alzheimer’s disease

Abstract

Tacrine is well-known drug for Alzheimer’s disease as an acetylcholinesterase inhibitor. Rember is a bright and promising AD drugs targeting tau protein, and it is currently in Phase III clinical trials. Phenothiazine, the key pharmacophore of Rember, can prevent tau filament formation. In this work, several tacrine-phenothiazine hybrids (T1–T26) were designed for inhibiting acetylcholinesterase and tau protein involved in Alzheimer’s disease. After initial screening with the help of computational chemistry software and Molegro Virtual Docker, three molecules (T5, T18, and T22) were selected for further synthesis and biological evaluation. Next, T5, T18, and T22 were synthesized and evaluated for their acetylcholinesterase and tau hyperphosphorylation inhibition. All the tested compounds had better acetylcholinesterase inhibitory activity compared with tacrine. Among them, compound T5 was found to be the most potent compound with IC50 89 nM. Meanwhile, T5 markedly prevented tau hyperphosphorylation induced by okadaic acid in N2α cell. Its P-tau level was decreased with 39.5 % inhibition when tested at 10−5 M, lower than that Rember (55.7 %). Besides acetylcholinesterase and tau hyperphosphorylation inhibition, T5 can also interact with fibrill beta amyloid using surface plasmon resonance, the data of KD were 5.51 × 10−8 M. All the above results indicated that tacrine-phenothiazine hybrids are potential multitarget directed ligands targeting acetylcholinesterase, tau protein, and beta amyloid.