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. 2024 Dec;9(12):3304-3320.
doi: 10.1038/s41564-024-01854-z. Epub 2024 Nov 20.

Acquired amphotericin B resistance leads to fitness trade-offs that can be mitigated by compensatory evolution in Candida auris

Hans Carolus #  1 Dimitrios Sofras #  2 Giorgio Boccarella  3 Poppy Sephton-Clark  4 Vladislav Biriukov  5   6 Nicholas C Cauldron  7 Celia Lobo Romero  2 Rudy Vergauwen  2 Saleh Yazdani  2 Siebe Pierson  2 Stef Jacobs  2 Paul Vandecruys  2 Stefanie Wijnants  2 Jacques F Meis  8   9 Toni Gabaldón  5   6   10   11 Pieter van den Berg  3   12 Jeffrey M Rybak  13 Christina A Cuomo  4   7 Patrick Van Dijck  14   15
Affiliations

Acquired amphotericin B resistance leads to fitness trade-offs that can be mitigated by compensatory evolution in Candida auris

Hans Carolus et al. Nat Microbiol. 2024 Dec.

Abstract

Candida auris is a growing concern due to its resistance to antifungal drugs, particularly amphotericin B (AMB), detected in 30 to 60% of clinical isolates. However, the mechanisms of AMB resistance remain poorly understood. Here we investigated 441 in vitro- and in vivo-evolved C. auris lineages from 4 AMB-susceptible clinical strains of different clades. Genetic and sterol analyses revealed four major types of sterol alterations as a result of clinically rare variations in sterol biosynthesis genes ERG6, NCP1, ERG11, ERG3, HMG1, ERG10 and ERG12. In addition, aneuploidies in chromosomes 4 and 6 emerged during resistance evolution. Fitness trade-off phenotyping and mathematical modelling identified diverse strain- and mechanism-dependent fitness trade-offs. Variation in CDC25 rescued fitness trade-offs, thereby increasing the infection capacity. This possibly contributed to therapy-induced acquired AMB resistance in the clinic. Our findings highlight sterol-modulating mechanisms and fitness trade-off compensation as risks for AMB treatment failure in clinical settings.

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Conflict of interest statement

Competing interests: The authors declare no competing interests.

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