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Mechanistic Insight Into the Antifungal Effects of a Fatty Acid Derivative Against Drug-Resistant Fungal Infections

Anamika Bhattacharyya, M. Sinha, Himanshi Singh, Ranjeet Singh Patel, Sumana Ghosh, Sumana Ghosh, Kabir Sardana, Shamik Ghosh, Shamik Ghosh, Shiladitya Sengupta

2020Frontiers in Microbiology36 citationsDOIOpen Access PDF

Abstract

Drug-resistant pathogenic fungi are emerging as a major global health challenge. There is an urgent need for novel molecules that can exert a potent antifungal activity and overcome resistance. Elucidating novel anti-fungal properties of existing molecules can potentially offer a rapid solution to address this emerging threat. We rationalized that molecules which disrupt the fungal cell membrane could address the above unmet need. As fatty acids underpin the formation and stability of cell membranes, we used computational simulations to evaluate the interactions between selected short chain fatty acids and a model cell membrane. Here, we report that caprylic acid could penetrate and perturb the membrane in silico. Based on the in silico findings, we identified a derivative of this fatty acid that disrupts fungal membranes as detected using steady-state fluorescence anisotropy. We show that this fatty acid derivative is potent against a variety of fungal pathogens like Candida and Trichophyton. We further demonstrated the ability of this fatty acid derivative to potentiate some azoles in vitro and enhance the efficacy of antifungal formulations in vivo. Our data suggests the emergence of a novel therapy for effective disease management and overcoming anti-fungal drug resistance.

Topics & Concepts

AntifungalDrugAntifungal drugAntifungal drugsDerivative (finance)MicrobiologyBiologyChemistryPharmacologyBusinessFinanceAntifungal resistance and susceptibilityEssential Oils and Antimicrobial ActivityNail Diseases and Treatments
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