Genome-Wide DNA Changes Acquired by Candida albicans Caspofungin-Adapted Mutants

Zuber, Jeffrey; Sah, Sudisht Kumar; Mathews, David H.; Rustchenko, Elena

doi:10.3390/microorganisms11081870

Cited by 2 publications

(1 citation statement)

References 27 publications

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“…We found in a similar study of C. glabrata by another laboratory that adaptation of C. albicans to cidal ECNs involves robust genome-wide changes at the transcription level involving hundreds and even thousands of genes ( 8 , 11 ). The complexity of the adaptation process was recently further elucidated by demonstrating that CAS-adapted mutants can acquire a limited number of unique DNA changes genome wide, predominantly single-nucleotide substitutions, half of which occurred as hotspots and is shared among the mutants ( 12 ).…”

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confidence: 99%

Identification of 10 genes on Candida albicans chromosome 5 that control surface exposure of the immunogenic cell wall epitope β-glucan and cell wall remodeling in caspofungin-adapted mutants

Sah,

Yadav,

Kruppa

et al. 2023

Microbiol Spectr

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Candida albicans is part of normal microbiota; however, it can cause superficial and life-threatening infections in immune-compromised individuals. As the use of drugs from the echinocandin (ECN) class for the treatment of candidiasis is increasing, resistance against ECNs is also emerging. We identified 10 genes on C. albicans chromosome 5 (Ch5) that are simultaneously downregulated to decrease susceptibility to ECN caspofungin. Independent knock-out experiments demonstrated that these genes act overall to decrease the 1,3- β -glucan level in the cell wall, change levels of mannan and chitin, and affect expression of FKS genes. Importantly, 10 genes on Ch5 increase or decrease surface exposure of the immunogenic epitope 1,3- β -glucan. Our data indicate functions for previously uncharacterized orf19.970 and orf19.4149.1, of which orf19.970 has no human ortholog. Our data also indicate new functions for the genes DUS4 , RPS25B , UAP1 , URA7 , RPO26 , HAS1 , and CKS1 , whereas the function of CHT2 as a negative regulator of ECN susceptibility has been previously established. Importantly, half of the above genes are essential; hence, indispensable processes are involved in the adaptation to ECNs. Our results suggest that a novel group of genes works in concert to control adaptation to ECNs and point to potential new drug targets. IMPORTANCE Candida infections are often fatal in immuno-compromised individuals, resulting in many thousands of deaths per year. Caspofungin has proven to be an excellent anti- Candida drug and is now the frontline treatment for infections. However, as expected, the number of resistant cases is increasing; therefore, new treatment modalities are needed. We are determining metabolic pathways leading to decreased drug susceptibility in order to identify mechanisms facilitating evolution of clinical resistance. This study expands the understanding of genes that modulate drug susceptibility and reveals new targets for the development of novel antifungal drugs.

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Section: Introductionmentioning

confidence: 99%

Identification of 10 genes on Candida albicans chromosome 5 that control surface exposure of the immunogenic cell wall epitope β-glucan and cell wall remodeling in caspofungin-adapted mutants

Sah,

Yadav,

Kruppa

et al. 2023

Microbiol Spectr

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Evolution and strain diversity advance exploration of Candida albicans biology

Anderson,

Dietz

2024

mSphere

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Fungi were some of the earliest organismal systems used to explore mutational processes and its phenotypic consequences on members of a species. Yeasts that cause significant human disease were quickly incorporated into these investigations to define the genetic and phenotypic drivers of virulence. Among Candida species, Candida albicans has emerged as a model for studying genomic processes of evolution because of its clinical relevance, relatively small genome, and ability to tolerate complex chromosomal changes. Here, we describe major recent findings that used evolution of strains from defined genetic backgrounds to delineate mutational and adaptative processes and include how nascent exploration into naturally occurring variation is contributing to these conceptual frameworks. Ultimately, efforts to discern adaptive mechanisms used by C. albicans will continue to divulge new biology and can better inform treatment regimens for the increasing prevalence of fungal disease.

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Genome-Wide DNA Changes Acquired by Candida albicans Caspofungin-Adapted Mutants

Cited by 2 publications

References 27 publications

Identification of 10 genes on Candida albicans chromosome 5 that control surface exposure of the immunogenic cell wall epitope β-glucan and cell wall remodeling in caspofungin-adapted mutants

Identification of 10 genes on Candida albicans chromosome 5 that control surface exposure of the immunogenic cell wall epitope β-glucan and cell wall remodeling in caspofungin-adapted mutants

Evolution and strain diversity advance exploration of Candida albicans biology

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