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Predicting permeation of compounds across the outer membrane of P. aeruginosa using molecular descriptors

The ability Gram-negative pathogens have at adapting and protecting themselves against antibiotics has increasingly become a public health threat. Data-driven models identifying molecular properties that correlate with outer membrane (OM) permeation and growth inhibition while avoiding efflux could...

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Bibliographic Details
Published in:Communications chemistry 2024-04, Vol.7 (1), p.84-84, Article 84
Main Authors: Manrique, Pedro D., Leus, Inga V., López, César A., Mehla, Jitender, Malloci, Giuliano, Gervasoni, Silvia, Vargiu, Attilio V., Kinthada, Rama K., Herndon, Liam, Hengartner, Nicolas W., Walker, John K., Rybenkov, Valentin V., Ruggerone, Paolo, Zgurskaya, Helen I., Gnanakaran, S.
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Language:English
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Summary:The ability Gram-negative pathogens have at adapting and protecting themselves against antibiotics has increasingly become a public health threat. Data-driven models identifying molecular properties that correlate with outer membrane (OM) permeation and growth inhibition while avoiding efflux could guide the discovery of novel classes of antibiotics. Here we evaluate 174 molecular descriptors in 1260 antimicrobial compounds and study their correlations with antibacterial activity in Gram-negative Pseudomonas aeruginosa . The descriptors are derived from traditional approaches quantifying the compounds’ intrinsic physicochemical properties, together with, bacterium-specific from ensemble docking of compounds targeting specific MexB binding pockets, and all-atom molecular dynamics simulations in different subregions of the OM model. Using these descriptors and the measured inhibitory concentrations, we design a statistical protocol to identify predictors of OM permeation/inhibition. We find consistent rules across most of our data highlighting the role of the interaction between the compounds and the OM. An implementation of the rules uncovered in our study is shown, and it demonstrates the accuracy of our approach in a set of previously unseen compounds. Our analysis sheds new light on the key properties drug candidates need to effectively permeate/inhibit P. aeruginosa , and opens the gate to similar data-driven studies in other Gram-negative pathogens. Identifying molecular properties of compounds that best correlate with outer membrane permeation and growth inhibition could guide the discovery of new antibiotics. Here, the authors evaluate 174 molecular descriptors in 1260 antimicrobial compounds and study their correlations with antibacterial activity in Gram-negative Pseudomonas aeruginosa to derive a statistical protocol to identify mechanistic predictors of outer membrane permeation.
ISSN:2399-3669
2399-3669
DOI:10.1038/s42004-024-01161-y