Competitive Fitness of Fluconazole-Resistant Clinical Candida albicans Strains

Popp, Christina; Hampe, Irene A. I.; Hertlein, Tobias; Ohlsen, Knut; Rogers, P. David; Morschhäuser, Joachim

doi:10.1128/aac.00584-17

Cited by 52 publications

(60 citation statements)

References 52 publications

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“…The ∼6,500-fold increased CYP51A mRNA expression levels suggest that, like in A. fumigatus (Abastabar et al, 2019) and the plant fungal pathogen F. graminearum (Liu et al, 2011;Fan et al, 2013), CYP51A of N. keratoplastica is also a key player in the observed azole resistance phenotype of FSSC species. Sterol biosynthesis of Saccharomycotina species like S. cerevisiae or C. albicans is regulated by the sterol regulatory zinccluster TF Upc2 (Yang et al, 2015;Popp et al, 2017). Sterol biosynthesis of many other eukaryotes, including fungal species like A. fumigatus, C. neoformans and Schizosaccharomyces pombe, and also mammals including Homo sapiens, is regulated by a different type of sterol regulator: a TF called SREBP.…”

Section: Cyp51a Cyp51b Cyp51cmentioning

confidence: 99%

A 23 bp cyp51A Promoter Deletion Associated With Voriconazole Resistance in Clinical and Environmental Isolates of Neocosmospora keratoplastica

et al. 2020

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In the fungal pathogen Aspergillus fumigatus, resistance to azole antifungals is often linked to mutations in CYP51A, a gene that encodes the azole antifungal drug target lanosterol 14α-demethylase. The aim of this study was to investigate whether similar changes could be associated with azole resistance in a Malaysian Fusarium solani species complex (FSSC) isolate collection. Most (11 of 15) clinical FSSC isolates were Neocosmospora keratoplastica and the majority (6 of 10) of environmental isolates were Neocosmospora suttoniana strains. All 25 FSSC isolates had high minimum inhibitory concentrations (MICs) for itraconazole and posaconazole, low MICs for amphotericin B, and various (1 to >32 mg/l) voriconazole susceptibilities. There was a tight association between a 23 bp CYP51A promoter deletion and high (>32 mg/l) voriconazole MICs; of 19 FSSC strains sequenced, nine isolates had voriconazole MICs > 32 mg/l, and they all contained the 23 bp CYP51A promoter deletion, although it was absent in the ten remaining isolates with low (≤12 mg/l) voriconazole MICs. Surprisingly, this association between voriconazole resistance and the 23 bp CYP51A promoter deletion held true across species boundaries. It was randomly distributed within and across species boundaries and both types of FSSC isolates were found among environmental and clinical isolates. Three randomly selected N. keratoplastica isolates with low (≤8 mg/l) voriconazole MICs had significantly lower (1.3-7.5 times) CYP51A mRNA expression levels than three randomly selected N. keratoplastica isolates with high (>32 mg/l) voriconazole MICs. CYP51A expression levels, however, were equally strongly induced (∼6,500-fold) by voriconazole in two representative strains reaching levels, after 80 min of induction, that were comparable to those of CYP51B. Our results suggest that FSSC isolates with high voriconazole MICs have a 23 bp CYP51A promoter deletion that provides a potentially useful marker for voriconazole resistance in FSSC isolates. Early detection of possible voriconazole resistance is critical for choosing the correct treatment option for patients with invasive fusariosis.

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Section: Cyp51a Cyp51b Cyp51cmentioning

confidence: 99%

A 23 bp cyp51A Promoter Deletion Associated With Voriconazole Resistance in Clinical and Environmental Isolates of Neocosmospora keratoplastica

et al. 2020

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“…We therefore tested the effect of a hyperactive Stb5 on the fluconazole sensitivity of two matched pairs of fluconazole-susceptible and fluconazole-resistant clinical C. albicans isolates in the absence and presence of beauvericin. Both resistant isolates contain GOF mutations in Tac1 (G980E in Gu5 and N977D in DSY296) that result in CDR1/CDR2 overexpression (10,17,24,25). As shown in Fig.…”

Section: Resultsmentioning

confidence: 93%

“…Upc2 regulates the expression of ergosterol biosynthesis genes, whereas Tac1 and Mrr1 control the expression of the multidrug efflux pumps encoded by CDR1/CDR2 and MDR1, respectively (5)(6)(7)(8). Gain-of-function (GOF) mutations in these transcription factors result in the constitutive overexpression of their target genes and are a common cause of fluconazole resistance in clinical C. albicans isolates (5,7,(9)(10)(11)(12)(13)(14)(15)(16)(17)(18).…”

Section: Introductionmentioning

confidence: 99%

A Hyperactive Form of the Zinc Cluster Transcription Factor Stb5 Causes YOR1 Overexpression and Beauvericin Resistance in Candida albicans

Ramı́rez-Zavala

Manz

Englert

et al. 2018

Antimicrob Agents Chemother

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Gain-of-function mutations in the zinc cluster transcription factors Mrr1, Tac1, and Upc2, which result in constitutive overexpression of their target genes, are a frequent cause of fluconazole resistance in the pathogenic yeast In this study, we show that an activated form of another zinc cluster transcription factor, Stb5, confers resistance to the natural compound beauvericin via the overexpression of, encoding an efflux pump of the ATP-binding cassette transporter superfamily. Beauvericin was recently shown to potentiate the activity of azole drugs against Although Yor1 did not contribute to fluconazole resistance when cells were treated with the drug alone, Stb5-mediated overexpression diminished the synergistic effect of the fluconazole-beauvericin combination, thereby enhancing fluconazole resistance in beauvericin-treated cells. Stb5-mediated overexpression also suppressed the inhibition of hyphal growth, an important virulence trait of, by beauvericin. Therefore, activating mutations in Stb5, which result in constitutive overexpression, may enable to acquire resistance to beauvericin and thereby overcome both the sensitization to azole drugs and the inhibition of morphogenesis caused by this compound.

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“…The ability of C. albicans to form biofilms, which increases antifungal drug resistance, is a major virulence factor observed in the clinical setting (12, 13). To test the efficacy of NB-201 on C. albicans biofilms, two multi-drug resistant clinical isolates TW1 and TW17 (21) were chosen. The C. albicans clinical isolates TW1 and TW17 were plated on 96-well plates and allowed to form a biofilm over the course of 24 hours (PFB).…”

Section: Resultsmentioning

confidence: 99%

A Nanoemulsion as an Effective Treatment Against Human Pathogenic Fungi

Garcia

Fan

Vellanki

et al. 2019

Preprint

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31The emergence of immunocompromising diseases such as HIV/AIDS or other 32 immunosuppressive medical conditions have opened an opportunity for fungal infections to 33 afflict patients globally. An increase antifungal drug resistant fungi have posed a serious threat 34 to patients. Combining these circumstances with a limited variety of antifungal drugs available to 35 treat patients has left us in a situation where we need to develop new therapeutic approaches 36 that are less prone to development of resistance by pathogenic fungi. In this study we present 37 the utilization of the nanoemulsion NB-201 to control human pathogenic fungi. We found that 38 the NB-201 exhibited in vitro activity against C. albicans, including both planktonic growth and 39 biofilms. Furthermore, treatments with NB-201 significantly reduced the fungal burden at the 40 infection site and presented enhanced healing process after subcutaneous infections by multi-41 drug resistant C. albicans in a murine host system. NB-201 also exhibited in vitro growth 42 inhibition activity against other fungal pathogens, including Cryptococcus spp, Aspergillus 43 fumigatus, and Mucorales. Due to the nature of the activity of this nanoemulsion, there is a 44 minimized chance of drug resistance to develop, thus presents a novel treatment to control 45 fungal wound or skin infections. 46 47 48 49 50 51 52 53

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Competitive Fitness of Fluconazole-Resistant Clinical Candida albicans Strains

Cited by 52 publications

References 52 publications

A 23 bp cyp51A Promoter Deletion Associated With Voriconazole Resistance in Clinical and Environmental Isolates of Neocosmospora keratoplastica

A 23 bp cyp51A Promoter Deletion Associated With Voriconazole Resistance in Clinical and Environmental Isolates of Neocosmospora keratoplastica

A Hyperactive Form of the Zinc Cluster Transcription Factor Stb5 Causes YOR1 Overexpression and Beauvericin Resistance in Candida albicans

A Nanoemulsion as an Effective Treatment Against Human Pathogenic Fungi

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