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. 2021 Aug 16:777:138745.
doi: 10.1016/j.cplett.2021.138745. Epub 2021 May 18.

Non-competitive interactions between hydroxychloroquine and azithromycin: Systematic density functional, molecular dynamics, and docking calculations

Mohammed A H Khalafalla  1 Chokri Hadj Belgacem  1 Ismail Abdelrehim  2 Kamel Chaieb  3
Affiliations

Non-competitive interactions between hydroxychloroquine and azithromycin: Systematic density functional, molecular dynamics, and docking calculations

Mohammed A H Khalafalla et al. Chem Phys Lett. .

Abstract

In this study, density functional theory (DFT) and docking calculations were systematically performed to study the non-competitive interaction between Hydroxychloroquine (HCQ) and azithromycin (AZTH). The calculated changes in Gibbs free energy and enthalpy (at 310 K) were positive, indicating the non-spontaneous formation of HCQ-AZTH specifically in water media. Docking calculation confirmed the obtained DFT result as evident from the different binding sites of both drugs to the SARS-CoV-2 main protease and human angiotensin-converting enzyme 2 (ACE2) proteins. The HCQ-AZTH structure revealed enhanced electrochemical properties, suggesting the synergy between HCQ and AZTH without affecting their therapeutic efficacy against SARS-CoV-2.

Keywords: Azithromycin; Density functional theory; Hydroxychloroquine; Molecular docking; SARS-CoV-2.

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Conflict of interest statement

The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper.

Figures

None
Graphical abstract
Fig. 1
Fig. 1
Calculations in a gas phase of the electrostatic potential isosurfaces (EPS) for the optimized AZTH (a) and HCQ (b) structures where the red and blue represent most negative and most positive EPS.
Fig. 2
Fig. 2
(a) The configuration for the structurally optimized AZTH-HCQ complex interacting through their most negative EPS and most positive EPS sites as shown in Fig. 1. The binding energy for this configuration is −18.68 kcal/mol (b) another AZTH-HCQ configuration with binding energy 376.35 kcal/mol.
Fig. 3
Fig. 3
Calculated Infrared spectra (calculated with the numerical frequency mode) for HCQ, AZTH, and AZTH-HCQ in both gas phase and water medium.
Fig. 4
Fig. 4
Calculated docking interactions of AZTH and HCQ with (a) Mpro protease and (b) ACE2 (or 1R42) protein. The left colored sheets and helixes are 3-dimensional models for the proteins-drugs interactions. The docking energies (affinities) are shown in kcal/mol beneath the corresponding 2D-interaction models shown to the right of the 3-dimensional model. The colored circles in the 2D models show the names of the protein amino acid residues within the interaction pockets.
Fig. 5
Fig. 5
The protein–ligand Root-Mean-Square-Deviation (RMSD) as calculated during 0.2 × 10−9 s (0.2 ns) molecular dynamic simulations. The proteins are 6LU7 (or Mpro) and 1R42 (or ACE2), and the ligands are AZTH and HCQ.
Fig. 6
Fig. 6
The calculated HOMO and LUMO isosurfaces for the AZTH-HCQ complex structure in water phase. The value of the plotted isosurfaces is 0.02000 a.u.
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