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White-Brown switching controls phenotypic plasticity and virulence of Candida auris

Trinh Phan-Canh, Sabrina Jenull, Tamires A. Bitencourt, Saskia Seiser, Doris Moser, Marjan Motamedi, Anuradha Chowdhary, Adelheid Elbe‐Bürger, Karl Kuchler

2025Cell Reports14 citationsDOIOpen Access PDF

Abstract

The skin-tropic human fungal pathogen Candida auris can cause life-threatening infections of high mortality in healthcare settings. Clinical isolates display a pronounced heterogeneity in virulence traits, such as antifungal susceptibility, stress adaptation, and growth fitness. However, the mechanistic bases underlying intraspecies variations remain enigmatic. Here, we show that C. auris cell populations encompass multiple cell states that allow for reversible morphogenetic switching at high frequency, resulting in distinct White and Brown morphotypes. Further, we demonstrate that temperature and carbon source are key drivers of morphogenesis. White and Brown morphotypes show distinct phenotypes concerning stress tolerance, antifungal susceptibility, and fitness on murine skin. Our data reveal that morphogenesis engages both transcriptional activators, including Wor1, Msn4, Crz2, and Rca1, and the Efg1 repressor. Importantly, the stochastic conversion explains the extreme plasticity underlying adaptive virulence traits. The results allow for the exploration of the therapeutic potential of morphogenesis regulators in C. auris.

Topics & Concepts

BiologyVirulencePhenotypic switchingCandida aurisMorphogenesisPhenotypeAdaptation (eye)GeneticsWhite (mutation)GeneFungal pathogenPhenotypic plasticityAntifungal drugFungusMicrobiologyAntifungalNeuroscienceBotanyAntifungal resistance and susceptibilityFungal Infections and StudiesFungal and yeast genetics research
White-Brown switching controls phenotypic plasticity and virulence of Candida auris | Litcius