Literature DB >> 26438408

Combined 3D-QSAR, molecular docking, and molecular dynamics study of tacrine derivatives as potential acetylcholinesterase (AChE) inhibitors of Alzheimer's disease.

An Zhou1,2, Jianping Hu3,4, Lirong Wang3,4, Guochen Zhong2, Jian Pan5, Zeyu Wu1, Ailing Hui6.   

Abstract

Acetylcholinesterase (AChE) is one of the key targets of drugs for treating Alzheimer's disease (AD). Tacrine is an approved drug with AChE-inhibitory activity. In this paper, 3D-QSAR, molecular docking, and molecular dynamics were carried out in order to study 60 tacrine derivatives and their AChE-inhibitory activities. 3D-QSAR modeling resulted in an optimal CoMFA model with q(2) = 0.552 and r(2) = 0.983 and an optimal CoMSIA model with q(2) = 0.581 and r(2) = 0.989. These QSAR models also showed that the steric and H-bond fields of these compounds are important influences on their activities. The interactions between these inhibitors and AChE were further explored through molecular docking and molecular dynamics simulation. A few key residues (Tyr70, Trp84, Tyr121, Trp279, and Phe330) at the binding site of AChE were identified. The results of this study improve our understanding of the mechanisms of AChE inhibitors and afford valuable information that should aid the design of novel potential AChE inhibitors. Graphical Abstract Superposition of backbone atoms of the lowest-energy structure obtained from MD simulation (magenta) onto those of the structure of the initial molecular docking model (green).

Entities:  

Keywords:  3D-QSAR; AChE inhibitor; Alzheimer’s disease; Molecular dynamics; Tacrine

Mesh:

Substances:

Year:  2015        PMID: 26438408     DOI: 10.1007/s00894-015-2797-8

Source DB:  PubMed          Journal:  J Mol Model        ISSN: 0948-5023            Impact factor:   1.810


  28 in total

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Authors:  Junmei Wang; Romain M Wolf; James W Caldwell; Peter A Kollman; David A Case
Journal:  J Comput Chem       Date:  2004-07-15       Impact factor: 3.376

2.  Complexes of alkylene-linked tacrine dimers with Torpedo californica acetylcholinesterase: Binding of Bis5-tacrine produces a dramatic rearrangement in the active-site gorge.

Authors:  Edwin H Rydberg; Boris Brumshtein; Harry M Greenblatt; Dawn M Wong; David Shaya; Larry D Williams; Paul R Carlier; Yuan-Ping Pang; Israel Silman; Joel L Sussman
Journal:  J Med Chem       Date:  2006-09-07       Impact factor: 7.446

3.  Molecular similarity indices in a comparative analysis (CoMSIA) of drug molecules to correlate and predict their biological activity.

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Journal:  J Med Chem       Date:  1994-11-25       Impact factor: 7.446

Review 4.  Alzheimer's disease: a disorder of cortical cholinergic innervation.

Authors:  J T Coyle; D L Price; M R DeLong
Journal:  Science       Date:  1983-03-11       Impact factor: 47.728

5.  Pharmacophore mapping-based virtual screening followed by molecular docking studies in search of potential acetylcholinesterase inhibitors as anti-Alzheimer's agents.

Authors:  Pravin Ambure; Supratik Kar; Kunal Roy
Journal:  Biosystems       Date:  2013-12-08       Impact factor: 1.973

6.  Multifunctional tacrine-flavonoid hybrids with cholinergic, β-amyloid-reducing, and metal chelating properties for the treatment of Alzheimer's disease.

Authors:  Su-Yi Li; Xiao-Bing Wang; Sai-Sai Xie; Neng Jiang; Kelvin D G Wang; He-Quan Yao; Hong-Bin Sun; Ling-Yi Kong
Journal:  Eur J Med Chem       Date:  2013-09-21       Impact factor: 6.514

7.  Hepatotoxic effects of tacrine administration in patients with Alzheimer's disease.

Authors:  P B Watkins; H J Zimmerman; M J Knapp; S I Gracon; K W Lewis
Journal:  JAMA       Date:  1994-04-06       Impact factor: 56.272

8.  Structural modifications of 4-aryl-4-oxo-2-aminylbutanamides and their acetyl- and butyrylcholinesterase inhibitory activity. Investigation of AChE-ligand interactions by docking calculations and molecular dynamics simulations.

Authors:  Maja D Vitorović-Todorović; Catherine Koukoulitsa; Ivan O Juranić; Ljuba M Mandić; Branko J Drakulić
Journal:  Eur J Med Chem       Date:  2014-05-04       Impact factor: 6.514

9.  The discovery of potential acetylcholinesterase inhibitors: a combination of pharmacophore modeling, virtual screening, and molecular docking studies.

Authors:  Shin-Hua Lu; Josephine W Wu; Hsuan-Liang Liu; Jian-Hua Zhao; Kung-Tien Liu; Chih-Kuang Chuang; Hsin-Yi Lin; Wei-Bor Tsai; Yih Ho
Journal:  J Biomed Sci       Date:  2011-01-21       Impact factor: 8.410

10.  In silico prediction of estrogen receptor subtype binding affinity and selectivity using statistical methods and molecular docking with 2-arylnaphthalenes and 2-arylquinolines.

Authors:  Zhizhong Wang; Yan Li; Chunzhi Ai; Yonghua Wang
Journal:  Int J Mol Sci       Date:  2010-09-20       Impact factor: 5.923
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  5 in total

Review 1.  In Silico Studies in Drug Research Against Neurodegenerative Diseases.

Authors:  Farahnaz Rezaei Makhouri; Jahan B Ghasemi
Journal:  Curr Neuropharmacol       Date:  2018       Impact factor: 7.363

2.  In silico study of tacrine and acetylcholine binding profile with human acetylcholinesterase: docking and electronic structure.

Authors:  Letícia A Nascimento; Érica C M Nascimento; João B L Martins
Journal:  J Mol Model       Date:  2022-08-10       Impact factor: 2.172

Review 3.  A Comprehensive Review of Cholinesterase Modeling and Simulation.

Authors:  Danna De Boer; Nguyet Nguyen; Jia Mao; Jessica Moore; Eric J Sorin
Journal:  Biomolecules       Date:  2021-04-15

4.  Synthesis and Acaricidal Activities of Scopoletin Phenolic Ether Derivatives: QSAR, Molecular Docking Study and in Silico ADME Predictions.

Authors:  Jinxiang Luo; Ting Lai; Tao Guo; Fei Chen; Linli Zhang; Wei Ding; Yongqiang Zhang
Journal:  Molecules       Date:  2018-04-24       Impact factor: 4.411

5.  Changing Paradigm from one Target one Ligand Towards Multi-target Directed Ligand Design for Key Drug Targets of Alzheimer Disease: An Important Role of In Silico Methods in Multi-target Directed Ligands Design.

Authors:  Akhil Kumar; Ashish Tiwari; Ashok Sharma
Journal:  Curr Neuropharmacol       Date:  2018       Impact factor: 7.363
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