Abstract
The number of patients with neurodegenerative diseases, particularly Alzheimer’s disease (AD), continues to grow yearly. Cholinesterase inhibitors (ChEIs) represent the first-line symptomatic drug treatment for mild-to-moderate AD; however, there is an unmet need to produce ChEIs with improved efficacy and reduced side effects. Herein, phytochemicals with reported anti-acetylcholinesterase (AChE) activity were ranked in silico for their anti-AChE potential. Ligands with a similar or higher binding affinity to AChE than galantamine were then selected for the design of novel dual-binding site heterodimeric drugs. In silico molecular docking of heterodimers with the target enzymes, AChE and butyrylcholinesterase (BuChE), were performed, and anti-cholinesterase binding affinities were compared with donepezil. Drug-likeliness properties and toxicity of the heterodimers were assessed using the SwissADME and ProTox-II webservers. Nine phytochemicals displayed similar or higher binding affinities to AChE than galantamine: sanguinarine > huperzine A > chelerythrine > yohimbine > berberine > berberastine > naringenin > akuammicine > carvone. Eleven heterodimeric ligands were designed with phytochemicals separated by four- or five-carbon alkyl-linkers. All heterodimers were theoretically potent AChE and BuChE dual-binding site inhibitors, with the highest affinity achieved with huperzine-4C-naringenin, which displayed 34% and 26% improved affinity to AChE and BuChE, respectively, then the potent ChEI drug, donepezil. Computational pharmacokinetic and pharmacodynamic screening suggested that phytochemical heterodimers would display useful gastrointestinal absorption and with relatively low predicted toxicity. Collectively, the present study suggests that phytochemicals could be garnered for the provision of novel ChEIs with enhanced drug efficacy and low toxicity.
Highlights
The phytochemical drug galantamine was used as a benchmark, and the ligands that were more potent than galantamine were selected for further analyses
Homo- and heterodimeric ligands have recently come to prominence due to their drug efficacy, dual-site binding, and additional beneficial disease-modifying properties [27,28,29,30,31,32,33,79,80]
Novel heterodimeric ligands have been designed from phytochemical building blocks that display relatively high binding affinities to both
Summary
The mode of action of ChEIs is via transient binding and inhibition of acetylcholinesterase (AChE) within the central nervous system (CNS). This drug treatment strategy is to prolong the activity of the neurotransmitter acetylcholine and thereby sustain cholinergic innervations. This is pertinent for the cholinergic projections from the basal forebrain to the frontal cortex and to the hippocampus, for which a decline in functionality of the latter is linked to the memory deficits associated with AD progression [2,5]
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