Design of Novel Potential Aromatase Inhibitors Via Hybrid Pharmacophore Approach: Docking Improvement Using the Qm/Mm Method

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Design of Novel Potential Aromatase Inhibitors Via Hybrid Pharmacophore Approach: Docking Improvement Using the Qm/Mm Method Publisher

Khodarahmi G¹ ; Asadi P¹ ; Farrokhpour H² ; Hassanzadeh F¹ ; Dinari M²

Show Affiliations

1. Department of Medicinal Chemistry, School of Pharmacy and Pharmaceutical Sciences, Isfahan University of Medical Sciences, Isfahan, 81746-73461, Iran
2. Department of Chemistry, Isfahan University of Technology, Isfahan, 84156-83111, Iran

Source: RSC Advances Published:2015

Abstract

Considering the potent cytotoxic activities of hybrid benzofuran-imidazolium and quinazolinone derivatives on the breast cancer cell line MCF-7, novel hybrid derivatives incorporating benzofuran, imidazole and quinazolinone pharmacophores were designed using a molecular hybridization approach. Since aromatase is highly expressed in the MCF-7 cell line, we tried to put these pharmacophores together in such a way that they would arrange themselves in a symmetrical shape, similar to aromatase inhibitors. Subsequently, the binding of these novel hybrid compounds to aromatase have been investigated using a docking procedure applying a combined quantum mechanical/molecular mechanical (QM/MM) method. The QM/MM calculation was performed on the reference structures to obtain atomic charges on the ligand atoms. The results indicated that the hybrid compounds were adopted properly within the aromatase binding site, suggesting that they could be potential inhibitors of aromatase. These novel designed compounds engage in hydrophobic and H-bond interactions with the aromatase binding site, which are in agreement with the basic physicochemical features of known aromatase inhibitors. To obtain more accurate results for the binding energies of the ligands, the structures of the ligands with the best interaction energies, obtained from the docking study, were re-optimized using a three-layer ONIOM method (QM:QM:MM) in which the binding pocket of the enzyme was considered as medium-level. The results demonstrated that when the optimized geometrical structures were subjected to re-docking, a better interaction energy was obtained, which strengthens the ability of these compounds to act as potential inhibitors of aromatase. © The Royal Society of Chemistry 2015.

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Style	Citing Format
MLA	Khodarahmi G, et al.. "Design of Novel Potential Aromatase Inhibitors Via Hybrid Pharmacophore Approach: Docking Improvement Using the Qm/Mm Method." RSC Advances, vol. 5, no. 71, 2015, pp. 58055-58064.
APA	Khodarahmi G, Asadi P, Farrokhpour H, Hassanzadeh F, Dinari M (2015). Design of Novel Potential Aromatase Inhibitors Via Hybrid Pharmacophore Approach: Docking Improvement Using the Qm/Mm Method. RSC Advances, 5(71), 58055-58064.
Chicago	Khodarahmi G, Asadi P, Farrokhpour H, Hassanzadeh F, Dinari M. "Design of Novel Potential Aromatase Inhibitors Via Hybrid Pharmacophore Approach: Docking Improvement Using the Qm/Mm Method." RSC Advances 5, no. 71 (2015): 58055-58064.
Harvard	Khodarahmi G et al. (2015) 'Design of Novel Potential Aromatase Inhibitors Via Hybrid Pharmacophore Approach: Docking Improvement Using the Qm/Mm Method', RSC Advances, 5(71), pp. 58055-58064.
Vancouver	Khodarahmi G, Asadi P, Farrokhpour H, Hassanzadeh F, Dinari M. Design of Novel Potential Aromatase Inhibitors Via Hybrid Pharmacophore Approach: Docking Improvement Using the Qm/Mm Method. RSC Advances. 2015;5(71):58055-58064.
BibTex	@article{ author = {Khodarahmi G and Asadi P and Farrokhpour H and Hassanzadeh F and Dinari M}, title = {Design of Novel Potential Aromatase Inhibitors Via Hybrid Pharmacophore Approach: Docking Improvement Using the Qm/Mm Method}, journal = {RSC Advances}, volume = {5}, number = {71}, pages = {58055-58064}, year = {2015} }
RIS	TY - JOUR AU - Khodarahmi G AU - Asadi P AU - Farrokhpour H AU - Hassanzadeh F AU - Dinari M TI - Design of Novel Potential Aromatase Inhibitors Via Hybrid Pharmacophore Approach: Docking Improvement Using the Qm/Mm Method JO - RSC Advances VL - 5 IS - 71 SP - 58055 EP - 58064 PY - 2015 ER -

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