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Candida auris skin tropism and antifungal resistance are mediated by carbonic anhydrase Nce103

Trinh Phan-Canh, Cristina Coman, Michaela Lackner, Nina Troppmair, Christoph Müller, Diana Cerbu, Saskia Seiser, Philipp Penninger, Irina Tsymala, Narakorn Khunweeraphong, Tamires A. Bitencourt, Andrej Knarr, Sabrina Jenull, Hossein Arzani, Lisa-Maria Zenz, G. Ianiri, Weiqiang Chen, Anuradha Chowdhary, Harry L. T. Mobley, Markus Hartl, Doris Moser, Robert Ahrends, Adelheid Elbe‐Bürger, Karl Kuchler

2025Nature Microbiology8 citationsDOIOpen Access PDF

Abstract

Abstract The pronounced skin tropism and pan-antifungal resistance of Candida auris pose a serious global health threat. A key question in C. auris biology is how clinical isolates acquire amphotericin B resistance. Here we demonstrate that a carbonic sensing pathway (CSP) contributes to amphotericin B resistance by modulating mitochondrial energy functions in clinical C. auris isolates. Integrated transcriptomics and proteomics identify the carbonic anhydrase Nce103 and its transcription factors Rca1 and Efg1 as important regulatory components of the CSP. The conversion of CO 2 into bicarbonate sustains energy metabolism required for colonization and fitness on human skin and in nutrient-limited microenvironments. We also show that bacterial skin colonizers engage urease to release CO 2 that sustains C. auris fitness and skin colonization. These findings highlight therapeutic options to re-sensitize C. auris to antifungal treatments, as well as to prevent skin colonization by blocking the CSP.

Topics & Concepts

Candida aurisMicrobiologyTropismBiologyPotentiatorDrug resistanceFluconazoleAntifungalAmphotericin BCarbonic anhydraseTranscription factorHuman pathogenEnzymeFungal proteinHuman skinVirulenceFlucytosinePseudomonas aeruginosaTissue tropismAntifungal resistance and susceptibilityEnzyme function and inhibitionLegionella and Acanthamoeba research
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