Sawsan Abuhamdah, Melanie-Jayne Howes, Rushdie Abuhamdah, Georgina Uttley and Paul Chazot
The University of Jordan, Jordan
Royal Botanic Gardens Kew, UK
Durham University, UK
Scientific Tracks Abstracts: Chem Sci J
Inhibition of the enzyme AChE has been shown to alleviate early cognitive symptoms in neurodegenerative diseases prompting several attempts to discover and optimize new AChE inhibitors. The aim of this study is to identify the components underpinning the AChE activity using structure based in silico screening with the Molecular docking GOLD version 3.0.1 (Cambridge Crystallographic Data Centre, Cambridge, UK) programme. Donepezil was used as the reference compound for alignment, and 88 comparator AChE inhibitors (including donepezil, galantamine, huperzine A, rivastigmine and tacrine) were taken from Lu et al., 2011. AChE activity was assayed as described in Lu et al., 2011. GC-MS analysis was performed as in and over 60 chemicals were detected, principally mono- and sesqui-terpenes. The crystal structure of human AChE (PDB:4EY7) was used for structure-based in silico screening of A. citrodora EO constituents for AChE inhibitor activity, the top scoring hits with highest pharmacophore fit values showed common interactions with residues at the active site to that of donepezil. The top seven hits in order of fit score, were ?²-curcumene, ?³-/ar-curcumene, ?²-/(Z)-?±-bisabolene, trans-calamenene, caryophyllene oxide, ?²-sesquiphellandrene and geranyl acetate, respectively. The scores of top binding hits had values comparable to those possessed by optimal conformations of huperzine A, rivastigmine, donepezil and galantamine in the hAChE active site, with TYR 341, 337, PHE 338 and HIS 447 being primary contact points; the majority of these interactions comprise hydrogen bonding, hydrophobic and Ï?-Ï? interactions. In vitro screening of the commercially available hits revealed two micromolar electric eel AChE inhibitors, caryophyllene oxide and geranyl acetate with IC50 values of 52 ?µM and 119 ?µM, respectively. This indicates that A. citrodora may yield a novel effective and potentially safe AChE Inhibitor. A combination of molecular docking, and virtual screening of medicinal plants constituents is a promising strategy for discovering new effective AChE inhibitors.
Sawsan Abuhamdah is an Associate Professor in department of Biopharmaceutics and Clinical Pharmacy in the University of Jordan, Jordan.
Email:s.abuhamdah@ju.edu.jo
Email:smaabuhamdah@gmail.com
Chemical Sciences Journal received 912 citations as per Google Scholar report