Prevalent mutator genotype identified in fungal pathogen Candida glabrata promotes multi-drug resistance

A novel and highly accurate diagnostic assay platform was established for rapid identification of FKS mutations associated with echinocandin resistance in Candida glabrata. The assay platform uses allele-specific molecular beacon and DNA melt analysis following asymmetric PCR. A dual assay for FKS1 and FKS2 was developed to identify within 3 h the most common and clinically relevant resistance-associated mutations, including 8 FKS1 HS1 (wild type [WT], S629P, F625S, D632Y, D632E [T1896G], D632E [T1896A], I634V, and F625F) and 7 FKS2 HS1 (WT, F659del, F659S, F659V, F659L, S663P, and S663F) genotypes. A blinded panel of 188 C. glabrata clinical isolates was tested by both assays. The molecular diagnostic results from the dual assay were 100% concordant with data obtained from DNA sequencing. This platform has the potential to overcome the deficiencies of existing in vitro susceptibility-based assays to identify echinocandin-resistant C. glabrata and holds promise as a surrogate diagnostic method to better direct echinocandin therapy.C andida glabrata is the second leading cause of candidemia in the United States, as well as in northern and eastern areas of Europe (1-3). With rapidly expanded usage of echinocandins, the first-line therapy for invasive candidiasis, an alarming trend of rising echinocandin resistance in C. glabrata has posed a serious clinical challenge (4-6). Detection of echinocandin resistance can be assessed phenotypically, using either microdilution or disc diffusion MIC assays performed in accordance with guidance of the Clinical and Laboratory Standards Institute (CLSI) M27-A3 standard (7) and European Committee on Antimicrobial Susceptibility Testing (EUCAST) Definitive Document Edef 7.2 (8). Current echinocandin clinical breakpoints for C. glabrata were established by the CLSI for all echinocandins and by EUCAST for micafungin and anidulafungin. Breakpoints were specifically developed to identify C. glabrata harboring FKS mutations by considering multiple factors, such as ␤-1,3-D-glucan synthase enzyme kinetics and echinocandin pharmacokinetic and pharmacodynamic data (6, 9). However, despite standardized methodologies, important limitations with the in vitro susceptibility testing cannot be ignored: first, the assay has a time-consuming setup and intrinsically slow turnaround time, requiring 24 to 48 h after isolate recovery; second, interlaboratory variability of caspofungin MICs has limited direct testing of this drug (10); and third, susceptible and resistant populations overlap (11).Clinical echinocandin resistance in C. glabrata is associated with amino acid substitutions caused by mutations in specific hotspot (HS) regions of FKS1 and FKS2, which encode the drug target ␤-1,3-D-glucan synthase. A recent study performed among patients with invasive candidiasis due to C. glabrata has shown that the FKS genotype is a better indicator of echinocandin therapeutic failure than MIC (12).To date, DNA sequencing is the only means to identify mutations within FKS1 and FKS2 genes. Sequence data a...

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“…FKS1 HS1 and FKS2 HS1 regions were amplified and sequenced in both directions as previously described (17).…”

Section: Methodsmentioning

confidence: 99%

Rapid Detection of FKS -Associated Echinocandin Resistance in Candida glabrata

Zhao

Nagasaki

Kordalewska

et al. 2016

Antimicrob Agents Chemother

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“…Genotyping showed that isolates were identical before and after micafungin progressive exposure, thus excluding any potential contamination of the isolates during the propagation steps. The emergence of echinocandin resistance could be caused by the predisposition of this pathogen to easily acquire mutations in response to drug pressure due to its haploid nature and to alterations caused by mismatched repair genes (15). The five isolates studied became echinocandin resistant when grown even on plates containing low concentrations of micafungin.…”

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confidence: 99%

In Vitro Exposure to Increasing Micafungin Concentrations Easily Promotes Echinocandin Resistance in Candida glabrata Isolates

Bordallo-Cardona

Escribano

Pedrosa

et al. 2017

Antimicrob Agents Chemother

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We assessed the in vitro susceptibility of five echinocandin-susceptible Candida glabrata isolates after exposure to micafungin. The direct exposure to plates at different micafungin concentrations resulted in the inhibition of growth at 0.062 g/ml. The progressive exposure was performed on plates using 0.031 g/ml of micafungin and sequential propagation on plates containing the next 2-fold concentration; the MICs of micafungin and anidulafungin increased sequentially, and all the isolates became echinocandin resistant, showing fks2 mutations.

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“…Alterations in sterol-and phospholipid composition as well as changes in membrane structure account for different polyene-cross-resistance patterns [130,131] and were found in clinical isolates resistant to Azoles as well as polyenes [98,[132][133][134][135][136][137]. The situation is probably aggravated by the finding that a mutator phenotype caused by a mismatch repair defect is prevalent in C. glabrata [138]. This genetic mechanism promotes the acquisition of resistance to multiple antifungals.…”

Section: Cross Resistance Multidrug Resistance and Horizontal Gene mentioning

confidence: 99%

For Debate: May the Use of the Polyene Macrolide Natamycin as a Food Additive Foster Emergence of Polyene-Resistance in Candida Species?

Dalhoff¹

2017

Clin Microbiol

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Prevalent mutator genotype identified in fungal pathogen Candida glabrata promotes multi-drug resistance

Cited by 221 publications

References 35 publications

Rapid Detection of FKS -Associated Echinocandin Resistance in Candida glabrata

Rapid Detection of FKS -Associated Echinocandin Resistance in Candida glabrata

In Vitro Exposure to Increasing Micafungin Concentrations Easily Promotes Echinocandin Resistance in Candida glabrata Isolates

For Debate: May the Use of the Polyene Macrolide Natamycin as a Food Additive Foster Emergence of Polyene-Resistance in Candida Species?

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