Accumulation of Azole Drugs in the Fungal Plant Pathogen Magnaporthe oryzae Is the Result of Facilitated Diffusion Influx

Esquivel, Brooke D.; White, Theodore C.

doi:10.3389/fmicb.2017.01320

Cited by 13 publications

(10 citation statements)

References 45 publications

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“…Slight accumulations in the cell biomass of C. tropicalis and C. albicans were observed in the case of epoxiconazole and of fenpropimorph in C. glabrata . In our study, the decrease in amounts of Tango ® active compounds observed in Candida cells confirms the observations of Esquivel et al [ 45 ] indicating that reduced intracellular accumulation of antifungal agents is a mechanism of drug resistance in many species of fungi. Intracellular accumulation of azole drugs in Magnaporthe oryzae depended on the nutrient composition as well as the cell phase of the culture.…”

Section: Resultssupporting

confidence: 92%

“…Adaptation of the culture to various growth media can modulate the composition of the cytoplasmic membrane in cells, and consequently affect azole uptake. In another study, glucose-containing media reduced final drug accumulation levels, probably due to the activation of glucose-dependent efflux pumps [ 45 ], which would confirm our results for the active substances in Tango ® . Moreover, in studies conducted by Mansfield et al [ 46 ], fluconazole accumulation was inversely correlated with the expression of ATP-dependent efflux pumps in energized C. albicans cells.…”

Section: Resultssupporting

confidence: 87%

“…Antagonistic effects have been found when compounds are mixed. Esquivel et al [ 45 ] indicated that antagonism between active compounds may be the result of competition for the import of active compounds into host cells. In the case of insecticides, reduced cytotoxicity is observed in all tested species, when treated either with commercial preparations and/or with the active compounds included in them.…”

Section: Resultsmentioning

confidence: 99%

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Synthetic Pesticides Used in Agricultural Production Promote Genetic Instability and Metabolic Variability in Candida spp.

Potocki

Baran

Oklejewicz

et al. 2020

Genes

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The effects of triazole fungicide Tango® (epoxiconazole) and two neonicotinoid insecticide formulations Mospilan® (acetamiprid) and Calypso® (thiacloprid) were investigated in Candida albicans and three non-albicans species Candida pulcherrima, Candida glabrata and Candida tropicalis to assess the range of morphological, metabolic and genetic changes after their exposure to pesticides. Moreover, the bioavailability of pesticides, which gives us information about their metabolization was assessed using gas chromatography-mass spectrophotometry (GC-MS). The tested pesticides caused differences between the cells of the same species in the studied populations in response to ROS accumulation, the level of DNA damage, changes in fatty acids (FAs) and phospholipid profiles, change in the percentage of unsaturated to saturated FAs or the ability to biofilm. In addition, for the first time, the effect of tested neonicotinoid insecticides on the change of metabolic profile of colony cells during aging was demonstrated. Our data suggest that widely used pesticides, including insecticides, may increase cellular diversity in the Candida species population-known as clonal heterogeneity-and thus play an important role in acquiring resistance to antifungal agents.

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Section: Resultssupporting

confidence: 92%

Section: Resultssupporting

confidence: 87%

Section: Resultsmentioning

confidence: 99%

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Synthetic Pesticides Used in Agricultural Production Promote Genetic Instability and Metabolic Variability in Candida spp.

Potocki

Baran

Oklejewicz

et al. 2020

Genes

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“…It reverses FLC resistance in S. cerevisiae strains expressing C. albicans and C. glabrata ABC transporters (31). Clorgyline also inhibits energy-dependent efflux of [ 3 H]FLC in M. oryzae (30). These results indicate that the mechanism of transport inhibition by clorgyline is broadly conserved throughout yeast and filamentous fungi.…”

mentioning

confidence: 79%

“…Previous analysis revealed measurable, energy-dependent efflux of fluconazole in A. fumigatus and the plant pathogen Magnaporthe oryzae (29,30). Filamentous fungi contain a higher number of genes encoding predicted ABC transporters than do yeast species such as Saccharomyces cerevisiae, Candida albicans, Cryptococcus neoformans, Candida glabrata, and Candida krusei (13,14,17,18).…”

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confidence: 99%

Characterization of the Efflux Capability and Substrate Specificity of Aspergillus fumigatus PDR5-like ABC Transporters Expressed in Saccharomyces cerevisiae

Esquivel

Rybak

Barker

et al. 2020

mBio

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This research analyzed six Aspergillus fumigatus genes encoding putative efflux proteins for their roles as transporters. The A. fumigatus genes abcA, abcC, abcF, abcG, abcH, and abcI were cloned into plasmids and overexpressed in a Saccharomyces cerevisiae strain in which the highly active endogenous ABC transporter gene PDR5 was deleted. The activity of each transporter was measured by efflux of rhodamine 6G and accumulation of alanine β-naphthylamide. The transporters AbcA, AbcC, and AbcF had the strongest efflux activities of these compounds. All of the strains with plasmid-expressed transporters had more efflux activity than did the PDR5-deleted background strain. We performed broth microdilution drug susceptibility testing and agar spot assays using an array of compounds and antifungal drugs to determine the transporter specificity and drug susceptibility of the strains. The transporters AbcC and AbcF showed the broadest range of substrate specificity, while AbcG and AbcH had the narrowest range of substrates. Strains expressing the AbcA, AbcC, AbcF, or AbcI transporter were more resistant to fluconazole than was the PDR5-deleted background strain. Strains expressing AbcC and AbcF were additionally more resistant to clotrimazole, itraconazole, ketoconazole, and posaconazole than was the background strain. Finally, we analyzed the expression levels of the genes by reverse transcription-quantitative PCR (RT-qPCR) in triazole-susceptible and -resistant A. fumigatus clinical isolates. All of these transporters are expressed at a measurable level, and transporter expression varied significantly between strains, demonstrating the high degree of phenotypic variation, plasticity, and divergence of which this species is capable. IMPORTANCE One mechanism behind drug resistance is altered export out of the cell. This work is a multifaceted analysis of membrane efflux transporters in the human fungal pathogen A. fumigatus. Bioinformatics evidence infers that there is a relatively large number of genes in A. fumigatus that encode ABC efflux transporters. However, very few of these transporters have been directly characterized and analyzed for their potential role in drug resistance. Our objective was to determine if these undercharacterized proteins function as efflux transporters and then to better define whether their efflux substrates include antifungal drugs used to treat fungal infections. We chose six A. fumigatus potential plasma membrane ABC transporter genes for analysis and found that all six genes produced functional transporter proteins. We used two fungal systems to look for correlations between transporter function and drug resistance. These transporters have the potential to produce drug-resistant phenotypes in A. fumigatus. Continued characterization of these and other transporters may assist in the development of efflux inhibitor drugs.

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Transport Across Membranes: Techniques for Measuring Drug Import in Fungal Cells

Esquivel¹,

White²

2023

Methods in Molecular Biology

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Accumulation of Azole Drugs in the Fungal Plant Pathogen Magnaporthe oryzae Is the Result of Facilitated Diffusion Influx

Cited by 13 publications

References 45 publications

Synthetic Pesticides Used in Agricultural Production Promote Genetic Instability and Metabolic Variability in Candida spp.

Synthetic Pesticides Used in Agricultural Production Promote Genetic Instability and Metabolic Variability in Candida spp.

Characterization of the Efflux Capability and Substrate Specificity of Aspergillus fumigatus PDR5-like ABC Transporters Expressed in Saccharomyces cerevisiae

Transport Across Membranes: Techniques for Measuring Drug Import in Fungal Cells

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