A novel series of carbamate-based N-substituted tryptamine derivatives were designed and synthesized based on functional group combination strategy, and possessed both cholinesterase inhibition and neuroprotective effects. After systematically evaluating the cholinesterase inhibitory activity of 24 synthesized compounds, compound 6H6, bearing n-heptyl residue as carbamate moiety, was highlighted due to its great BChE-selective inhibition (eeAChE IC(50) > 100 microM; eqBChE IC(50) = 7 nM), neuronal protection, antioxidation and anti-neuroinflammation efficacy. Cytotoxicity and acute toxicity assays confirmed the safety-efficacy profiles of compound 6H6. Besides, pharmacokinetic properties and blood-brain barrier (BBB) permeability of compound 6H6 were favorable and suitable for further study in vivo. The behavioral tests revealed that compound 6H6 could remarkably improve the scop-induced ethological changes and memory impairment, suggesting compound 6H6, as an attractive pleiotropic molecule, had great promise in treating Alzheimer's disease.
Zhang H, Wang Y, Liu D, Li J, Feng Y, Lu Y, Yin G, Li Z, Shi T, Wang Z (2022) Carbamate-based N-Substituted tryptamine derivatives as novel pleiotropic molecules for Alzheimer's disease Bioorg Chem125: 105844
Zhang H, Wang Y, Liu D, Li J, Feng Y, Lu Y, Yin G, Li Z, Shi T, Wang Z (2022) Bioorg Chem125: 105844