Antifungal tolerance is a subpopulation effect distinct from resistance and is associated with persistent candidemia

Rosenberg, Alexander J.; Ene, Iuliana V.; Bibi, Maayan; Zakin, Shiri; Segal, Ella Shtifman; Ziv, Naomi; Dahan, Alon; Colombo, Arnaldo Lopes; Bennett, Richard J.; Berman, Judith

doi:10.1038/s41467-018-04926-x

Cited by 174 publications

(362 citation statements)

References 81 publications

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“…Microbial cultures show molecular and phenotypical heterogeneity that may be important within the scope of antimicrobial resistance (33). Histogram graphs of the calcofluor staining showed that the increase in chitin content is at a sub-population level (Fig 7B).…”

Section: Resultsmentioning

confidence: 99%

Puf4 Mediates Post-transcriptional Regulation of Caspofungin Resistance inCryptococcus neoformans

Kalem

Subbiah

Leipheimer

et al. 2020

Preprint

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24Echinocandins have been on the market for 20 years, yet they are the newest class of 25 antifungal drugs. The human fungal pathogen Cryptococcus neoformans is intrinsically resistant 26 to the echinocandin antifungal drug caspofungin, which targets the b-1,3-glucan synthase 27 encoded by the FKS1. Analysis of a C. neoformans puf4∆ mutant, lacking the pumilio/FBF RNA 28 binding protein family member Puf4, revealed exacerbated caspofungin resistance. In contrast, 29 overexpression of PUF4 resulted in caspofungin sensitivity. The FKS1 mRNA contains three 30 Puf4-binding elements (PBEs) in its 5' untranslated region. Puf4 binds with specificity to this 31 region of the FKS1. The FKS1 mRNA was destabilized in the puf4∆ mutant, and the abundance 32 of the FKS1 mRNA was reduced compared to wild type, suggesting that Puf4 is a positive 33 regulator FKS1 mRNA stability. In addition to FKS1, the abundance of additional cell wall 34 biosynthesis genes, including chitin synthases (CHS3, CHS4, CHS6) and deacetylases (CDA1, 35 CDA2, CDA3) as well as a b-1,6-glucan synthase gene (SKN1) was regulated by Puf4 during a 36 caspofungin time course. The use of fluorescent dyes to quantify cell wall components revealed 37 that the puf4∆ mutant had increased chitin content, suggesting a cell wall composition that is 38 less reliant on b-1,3-glucan. Overall, our findings suggest a mechanism by which caspofungin 39 resistance, and more broadly, cell wall biogenesis, is regulated post-transcriptionally by Puf4. 40 41 Importance 42 Cryptococcus neoformans is an environmental fungus that causes pulmonary and central 43 nervous system infections. It is also responsible for 15% of AIDS-related deaths. A major 44 contributor to the high morbidity and mortality statistics is the lack of safe and effective 45 antifungal therapies, especially in resource-poor settings. Yet, antifungal drug development has 46 stalled in the pharmaceutical industry. Therefore, it is of importance to understand the mechanism by which C. neoformans is resistant to caspofungin in order to design adjunctive 48 therapies to potentiate its activity toward this important pathogen. 50 Introduction 51Invasive deep mycoses primarily impact immunocompromised populations causing high rates of 52 morbidity and mortality (1, 2). The pathogenic fungus Cryptococcus neoformans is the causative 53 agent of fatal meningitis most often in patients with defects in cell mediated immunity, including 54 transplant recipients and those living with HIV/AIDS (3-6). C. neoformans is responsible of the 55 15% of AIDS-related deaths (6). Treatment of cryptococcosis is difficult and therapeutic options 56 are limited. Even the best combination treatment using Amphotericin B with 5-fluorocytosine (5-57 FC) is not well tolerated, and 5-FC is often unavailable in resource-poor areas (7). Some of the 58 largest clinal challenges to invasive fungal infections are poor efficacy of the drugs, emerging 59 resistance issues, narrow selection and availability of antifungals especially in the areas where...

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Section: Resultsmentioning

confidence: 99%

Puf4 Mediates Post-transcriptional Regulation of Caspofungin Resistance inCryptococcus neoformans

Kalem

Subbiah

Leipheimer

et al. 2020

Preprint

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“…That is, the source of the cells physiological ability to survive in the presence of the inhibitory compound is not due to stable genomic modifications, but rests upon post-transcriptional programs such as position in the cell cycle, expression of stress genes, or random fluctuation in key cellular defense genes. In general, tolerance is not nearly as well understood as drug resistance 37,38 . Even when grown under standard laboratory conditions, isogenetic (or near isogenic) Candida populations respond differentially to antifungal drugs, with some fraction of the population exhibiting drug tolerance, defined as the ability of individuals to survive and grow at drug concentrations above the minimal inhibitory concentration (MIC) 37,39 .…”

Section: Introductionmentioning

confidence: 99%

Candida albicans exhibits distinct cytoprotective responses to anti-fungal drugs that facilitate the evolution of drug resistance

Massahi

2020

Preprint

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We developed a modified protocol for nanolitre droplet-based single cell sequencing appropriate for fungal settings, and used it to transcriptionally profiled several thousands cells from a prototrophic Candida albicans population and several drug exposed colonies (incl. fluconazole, caspofungin and nystatin). Thousands of cells from each colony were profiled both at early and late time points post-treatment in order to infer survival trajectories from initial drug tolerance to drug resistance. We find that prototrophic C. albicans populations differentially and stochastically express cytoprotective epigenetic programs. For all drugs, there is evidence that tolerant individuals partition into distinct subpopulations, each with a unique survival strategy involving different regulatory programs. These responses are weakly related to changes in morphology (shift from white to opaque forms, or shift from yeast to filamentous forms). In turn, those subpopulations that successfully reach resistance each have a distinct multivariate epigenetic response that coordinates the expression of efflux pumps, chaperones, transport mechanisms, and cell wall maintenance. Live cell fluorescent imaging was used to validate predictions of which molecular responses most often led to survival after drug exposure. Together our findings provide evidence that C. albicans has a robust toolkit of short-term epigenetic cytoprotective responses designed to "buy time" and increase the chance of acquiring long-term resistance.

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“…Antifungal drug tolerance, a property distinct from drug resistance (2,3) , is the ability of some cells in a strain to grow slowly in the presence of a drug at concentrations above the MIC. In tolerant strains, the subpopulation of cells that grow (generally from 10-90% of cells, depending on the strain) is usually evident when growth is assessed after 48 h or longer in the drug (reviewed in 4) .…”

Section: Introductionmentioning

confidence: 99%

“…Clinically, the failure to clear infections is more likely when the infecting strain is drug-resistant. High levels of drug tolerance also may influence infection clearance (3,7) , although more studies that use quantitative criteria to definitively measure tolerance levels and distinguish tolerance from resistant isolates are needed (reviewed in 4) .…”

Section: Introductionmentioning

confidence: 99%

“…A mechanistic link between drug resistance and specific aneuploidies exists in multiple pathogenic fungal species (e.g., C. albicans, 22, 25-28 ; Cryptococcus neoformans , 29, 30 ; suggested in Candida auris, 31,32) . Because fluconazole tolerance and drug resistance are distinct and tolerance is sensitive to inhibitors that do not affect resistance (2,3) , it follows that antifungal tolerance likely evolves via a different subset of genes than resistance, although it is also possible that there is overlap between genes involved in tolerance and resistance.…”

Section: Introductionmentioning

confidence: 99%

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Candida albicansgenetic background influences mean and heterogeneity of drug responses and genome stability during evolution to fluconazole

Gerstein

Berman

2018

Preprint

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The importance of within-species diversity in determining the evolutionary potential of a population to evolve drug resistance or tolerance is not well understood, including in eukaryotic pathogens. To examine the influence of genetic background, we evolved replicates of twenty different clinical isolates of Candida albicans, a human fungal pathogen, in fluconazole, the commonly used antifungal drug. The isolates hailed from the major C. albicans clades and had different initial levels of drug resistance and tolerance to the drug. The majority of replicates

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Antifungal tolerance is a subpopulation effect distinct from resistance and is associated with persistent candidemia

Cited by 174 publications

References 81 publications

Puf4 Mediates Post-transcriptional Regulation of Caspofungin Resistance inCryptococcus neoformans

Puf4 Mediates Post-transcriptional Regulation of Caspofungin Resistance inCryptococcus neoformans

Candida albicans exhibits distinct cytoprotective responses to anti-fungal drugs that facilitate the evolution of drug resistance

Candida albicansgenetic background influences mean and heterogeneity of drug responses and genome stability during evolution to fluconazole

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