Simulation-Based Approaches for Determining Membrane Permeability of Small Compounds.
Christopher T. Lee,Jeffrey Comer,Conner Herndon,Nelson Leung,Anna Pavlova,Robert V. Swift,Chris Tung,Christopher N. Rowley,Rommie E. Amaro,Christophe Chipot,Yi Wang,James C. Gumbart +11 more
TLDR
Assessment of the efficiency and accuracy of several methods for the calculation of the permeability of a model DMPC bilayer to urea, benzoic acid, and codeine shows that Pm can be reliably estimated from only a few data points, leading to recommendations for calculating Pm from simulations.Abstract:
Predicting the rate of nonfacilitated permeation of solutes across lipid bilayers is important to drug design, toxicology, and signaling. These rates can be estimated using molecular dynamics simulations combined with the inhomogeneous solubility-diffusion model, which requires calculation of the potential of mean force and position-dependent diffusivity of the solute along the transmembrane axis. In this paper, we assess the efficiency and accuracy of several methods for the calculation of the permeability of a model DMPC bilayer to urea, benzoic acid, and codeine. We compare umbrella sampling, replica exchange umbrella sampling, adaptive biasing force, and multiple-walker adaptive biasing force for the calculation of the transmembrane PMF. No definitive advantage for any of these methods in their ability to predict the membrane permeability coefficient Pm was found, provided that a sufficiently long equilibration is performed. For diffusivities, a Bayesian inference method was compared to a generalized ...read more
Citations
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Computational methods in drug discovery.
TL;DR: An overview of computational methods used in different facets of drug discovery and highlight some of the recent successes is presented, both structure-based and ligand-based drug discovery methods are discussed.
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Predicting Binding Free Energies: Frontiers and Benchmarks.
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Multiscale Simulations of Biological Membranes: The Challenge To Understand Biological Phenomena in a Living Substance.
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Molecular Dynamics Simulations of Membrane Permeability.
TL;DR: While enhanced sampling methods and increasingly sophisticated treatments of diffusion add substantially to the repertoire of simulation-based approaches, they do not address directly the critical need for force fields with polarizability and multipoles, and constant pH methods.
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Intestinal Permeability and Drug Absorption: Predictive Experimental, Computational and In Vivo Approaches
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