Characterization of a selective, iron-chelating antifungal compound that disrupts fungal metabolism and synergizes with fluconazole | ENEngelskEnglishCharacterization of a selective, iron-chelating antifungal compound that disrupts fungal metabolism and synergizes with fluconazole
Corrales, Jeanne | Ramos Alonso, Lucia | González-Sabín, Javier | Ríos-Lombardía, Nicolás | Trevijano-Contador, Nuria | Berg, Henriette Engen | Skottvoll, Frøydis Sved | Moris, Francisco | Zaragoza, Oscar | Chymkowitch, Pierre | Garcia Llorente, Ignacio | Enserink, Jorrit
Fungal infections are a growing global health concern due to the limited number of available antifungal therapies as well as the emergence of fungi that are resistant to first-line antimicrobials, particularly azoles and echinocandins. Development of novel, selective antifungal therapies is challenging due to similarities between fungal and mammalian cells. An attractive source of potential antifungal treatments is provided by ecological niches co-inhabited by bacteria, fungi, and multicellular organisms, where complex relationships between multiple organisms have resulted in evolution of a wide variety of selective antimicrobials. Here, we characterized several analogs of one such natural compound, collismycin A. We show that NR-6226C has antifungal activity against several pathogenic Candida species, including C. albicans and C. glabrata, whereas it only has little toxicity against mammalian cells. Mechanistically, NR-6226C selectively chelates iron, which is a limiting factor for pathogenic fungi during infection. As a result, NR-6226C treatment causes severe mitochondrial dysfunction, leading to formation of reactive oxygen species, metabolic reprogramming, and a severe reduction in ATP levels. Using an in vivo model for fungal infections, we show that NR-6226C significantly increases survival of Candida-infected Galleria mellonella larvae. Finally, our data indicate that NR-6226C synergizes strongly with fluconazole in inhibition of C. albicans. Taken together, NR-6226C is a promising antifungal compound that acts by chelating iron and disrupting mitochondrial functions.
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