Journal
ACS INFECTIOUS DISEASES
Volume 9, Issue 9, Pages 1685-1694Publisher
AMER CHEMICAL SOC
DOI: 10.1021/acsinfecdis.3c00113
Keywords
natural product; candidiasis; mechanism ofaction; iron chelation
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This study evaluated the activity of the bioactive natural product, penta-O-galloyl-& beta;-d-glucose (PGG), against multidrug-resistant Candida species. PGG showed potent anti-Candida activity with minimal cytotoxicity for human cells. The antifungal activity of PGG is mediated through an iron-chelating mechanism, suggesting its potential use as a topical treatment for Candida infections.
Among fungal pathogens, infections by drug-resistant Candida species continue to pose a major challenge to healthcare.This studyaimed to evaluate the activity of the bioactive natural product, penta-O-galloyl-& beta;-d-glucose (PGG) against multidrug-resistant(MDR) Candida albicans, MDR Candida auris, and other MDR non-albicansCandida species. Here, we show that PGG has a minimum inhibitoryconcentration (MIC) of 0.25-8 & mu;g mL(-1) (0.265-8.5 & mu;M) against three clinical strains of C. auris and a MIC of 0.25-4 & mu;g mL(-1) (0.265-4.25 & mu;M) against a panel of otherMDR Candida species. Our cytotoxicity studies foundthat PGG was well tolerated by human kidney, liver, and epithelialcells with an IC50 > 256 & mu;g mL(-1) (>272 & mu;M). We also show that PGG is a high-capacity ironchelatorand that deletion of key iron homeostasis genes in C. albicans rendered strains hypersensitive to PGG.In conclusion, PGG displayed potent anti-Candida activitywith minimal cytotoxicity for human cells. We also found that theantifungal activity of PGG is mediated through an iron-chelating mechanism,suggesting that the compound could prove useful as a topical treatmentfor superficial Candida infections.
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