Thermodynamics and Intermolecular Interactions during the Insertion of Anionic Naproxen into Model Cell Membranes

The insertion process of Naproxen into model dimyristoylphosphatidylcholine (DMPC) membranes is studied by resorting to state-of-the-art classical and quantum mechanical atomistic computational approaches. Molecular dynamics simulations indicate that anionic Naproxen finds an equilibrium position ri...

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Bibliographic Details
Published in:The journal of physical chemistry. B 2021-09, Vol.125 (36), p.10383-10391
Main Authors: Rojas-Valencia, Natalia, Gómez, Sara, Núñez-Zarur, Francisco, Cappelli, Chiara, Hadad, Cacier, Restrepo, Albeiro
Format: Article
Language:English
Subjects:
B: Soft Matter, Fluid Interfaces, Colloids, Polymers, and Glassy Materials
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Summary:The insertion process of Naproxen into model dimyristoylphosphatidylcholine (DMPC) membranes is studied by resorting to state-of-the-art classical and quantum mechanical atomistic computational approaches. Molecular dynamics simulations indicate that anionic Naproxen finds an equilibrium position right at the polar/nonpolar interphase when the process takes place in aqueous environments. With respect to the reference aqueous phase, the insertion process faces a small energy barrier of ≈5 kJ mol–1 and yields a net stabilization of also ≈5 kJ mol–1. Entropy changes along the insertion path, mainly due to a growing number of realizable microstates because of structural reorganization, are the main factors driving the insertion. An attractive fluxional wall of noncovalent interactions is characterized by all-quantum descriptors of chemical bonding (natural bond orbitals, quantum theory of atoms in molecules, noncovalent interaction, density differences, and natural charges). This attractive wall originates in the accumulation of tiny transfers of electron densities to the interstitial region between the fragments from a multitude of individual intermolecular contacts stabilizing the tertiary drug/water/membrane system.
ISSN:1520-6106
1520-5207
DOI:10.1021/acs.jpcb.1c06766