scholarly journals First Detection of TR46/Y121F/T289A and TR34/L98H Alterations in Aspergillus fumigatus Isolates from Azole-Naive Patients in Denmark despite Negative Findings in the Environment

2014 ◽  
Vol 58 (9) ◽  
pp. 5096-5101 ◽  
Author(s):  
K. M. T. Astvad ◽  
R. H. Jensen ◽  
T. M. Hassan ◽  
E. G. Mathiasen ◽  
G. M. Thomsen ◽  
...  
Keyword(s):  
Aspergillus Fumigatus ◽  
Transplant Patient ◽  
Susceptibility Testing ◽  
Reference Method ◽  
Ecological Niches ◽  
Azole Resistance ◽  
Wild Type ◽  
Content Type ◽  
Negative Findings ◽  
Microbroth Dilution

ABSTRACTAzole-resistantAspergillus fumigatusharboring the TR34/L98H or TR46/Y121F/T289A alterations is increasingly found in Europe and Asia. Here, we present the first clinical cases of TR46/Y121/T289A and three cases of TR34/L98H outside the cystic fibrosis (CF) population in Denmark and the results of environmental surveys. Four patients (2012 to 2014) with 11A. fumigatusand 4Rhizomucor pusillusisolates and 239 soil samples (spring 2010 and autumn 2013, respectively) with a total of 113A. fumigatusisolates were examined.Aspergillusisolates were screened for azole resistance using azole-containing agar. Confirmatory susceptibility testing was done using the EUCAST microbroth dilution EDEF 9.1 reference method. For relevantA. fumigatusisolates,CYP51Asequencing and microsatellite genotyping were performed. Three patients harbored TR34/L98H isolates. Two were azole naive at the time of acquisition and two were coinfected with wild-typeA. fumigatusorR. pusillusisolates, complicating and delaying diagnosis. The TR46/Y121F/T289A strain was isolated in 2014 from a lung transplant patient. Genotyping indicated that susceptible and resistantAspergillusisolates were unrelated and that no transmission between patients occurred. Azole resistance was not detected in any of the 113 soil isolates. TR34/L98H and TR46/Y121F/T289A alterations appear to be emerging in the clinical setting in Denmark and now involve azole-naive patients. Two recent soil-sampling surveys in Denmark were unable to indicate any increased prevalence of azole-resistantA. fumigatusin the environment. These findings further support the demand for real-time susceptibility testing of all clinically relevant isolates and for studies investigating the seasonal variation and ecological niches for azole-resistant environmentalA. fumigatus.

scholarly journals APX001A In Vitro Activity against Contemporary Blood Isolates and Candida auris Determined by the EUCAST Reference Method

2018 ◽  
Vol 62 (10) ◽  
Author(s):  
Maiken Cavling Arendrup ◽  
Anuradha Chowdhary ◽  
Karen M. T. Astvad ◽  
Karin Meinike Jørgensen
Keyword(s):  
Susceptibility Testing ◽  
Yeast Species ◽  
Reference Method ◽  
Common Species ◽  
Drug Candidate ◽  
Its Sequencing ◽  
Wild Type ◽  
Candida Auris ◽  
Content Type

ABSTRACT APX001A is the active moiety of the first-in-class drug candidate APX001. So far, most susceptibility testing studies have examined ≤30 isolates/species, and only one used the EUCAST method. Here, we investigated the in vitro activity of APX001A and five comparators against 540 candidemia and 122 C. auris isolates. Isolates (17 Candida and 3 yeast species) were identified using CHROMagar, matrix-assisted laser desorption ionization–time of flight mass spectrometry (MALDI-TOF) and, when needed, internal transcribed space (ITS) sequencing. EUCAST E.Def 7.3.1 susceptibility testing included APX001A, amphotericin B, anidulafungin, micafungin, fluconazole, and voriconazole. Wild-type upper limits (WT-UL) were established following the EUCAST principles for epidemiological cutoff value setting for APX001A, allowing classification as wild type (WT) or non-WT. APX001A MIC50 values (mg/liter) were as follows: Candida albicans, Candida dubliniensis, and Candida tropicalis, 0.004 to 0.008; Candida parapsilosis and Candida auris, 0.016; Candida glabrata, 0.06; and Candida krusei, >0.5. APX001A MICs against the rare species varied from ≤0.0005 (C. pelliculosa) to >0.5 (Candida norvegensis). APX001A was equally or more active in vitro than the comparators against all species except C. krusei and C. norvegensis. Four isolates were APX001A non-WT; all were fluconazole resistant. A correlation was observed between APX001A and fluconazole MICs across all species except Candida guilliermondii and C. auris, and when comparing high and low fluconazole MIC isolates of C. albicans, C. dubliniensis, C. glabrata, C. tropicalis, and C. auris. APX001A showed promising in vitro activity against most Candida and other yeast species, including C. auris, compared to five comparators. WT-UL were suggested for the common species, and a new and unexplained correlation to fluconazole susceptibility was observed.

scholarly journals Comparison of the Sensititre YeastOne and CLSI M38-A2 Microdilution Methods in Determining the Activity of Amphotericin B, Itraconazole, Voriconazole, and Posaconazole against Aspergillus Species

2018 ◽  
Vol 56 (10) ◽  
Author(s):  
Hsuan-Chen Wang ◽  
Ming-I Hsieh ◽  
Pui-Ching Choi ◽  
Chi-Jung Wu
Keyword(s):  
Aspergillus Fumigatus ◽  
Amphotericin B ◽  
Antifungal Agents ◽  
Susceptibility Testing ◽  
Geometric Mean ◽  
Antifungal Susceptibility ◽  
Reference Method ◽  
Aspergillus Species ◽  
Broth Microdilution ◽  
Content Type

ABSTRACT This study compared the YeastOne and reference CLSI M38-A2 broth microdilution methods for antifungal susceptibility testing of Aspergillus species. The MICs of antifungal agents were determined for 100 Aspergillus isolates, including 54 Aspergillus fumigatus (24 TR34/L98H isolates), 23 A. flavus, 13 A. terreus, and 10 A. niger isolates. The overall agreement (within 2 2-fold dilutions) between the two methods was 100%, 95%, 92%, and 90% for voriconazole, posaconazole, itraconazole, and amphotericin B, respectively. The voriconazole geometric mean (GM) MICs were nearly identical for all isolates using both methods, whereas the itraconazole and posaconazole GM MICs obtained using the YeastOne method were approximately 1 dilution lower than those obtained using the reference method. In contrast, the amphotericin B GM MIC obtained using the YeastOne method was 3.3-fold higher than that observed using the reference method. For the 24 A. fumigatus TR34/L98H isolates assayed, the categorical agreement (classified according to the CLSI epidemiological cutoff values) was 100%, 87.5%, and 83.3% for itraconazole, voriconazole, and posaconazole, respectively. For four A. niger isolates, the itraconazole MICs were >8 μg/ml using the M38-A2 method due to trailing growth, whereas the corresponding itraconazole MICs obtained using the YeastOne method were all ≤0.25 μg/ml without trailing growth. These data suggest that the YeastOne method can be used as an alternative for azole susceptibility testing of Aspergillus species and for detecting the A. fumigatus TR34/L98H isolates but that this method fails to detect A. niger isolates exhibiting trailing growth with itraconazole. Additionally, for isolates with azole MICs that approach or that are at susceptibility breakpoints or with high amphotericin B MICs detected using the YeastOne method, further MIC confirmation using the reference CLSI method is needed.

scholarly journals Molecular Characterization of a Voriconazole-Resistant, Posaconazole-Susceptible Aspergillus fumigatus Isolate in a Lung Transplant Recipient in the United States

2015 ◽  
Vol 60 (2) ◽  
pp. 1129-1133 ◽  
Author(s):  
Jose A. Vazquez ◽  
Elias K. Manavathu
Keyword(s):  
United States ◽  
Aspergillus Fumigatus ◽  
Molecular Characterization ◽  
Lung Transplant ◽  
Transplant Patient ◽  
The United States ◽  
Azole Resistance ◽  
Content Type ◽  
High Level

ABSTRACTMolecular characterization ofcyp51Afrom the azole-resistantAspergillus fumigatusisolate 50593 from a lung transplant patient showed Y121F/T289A changes coupled with a 46-bp tandem repeat (TR46) on the promoter, whereascyp51Afrom the pretherapy isolate,A. fumigatus47381, showed no changes. This is the first reported case ofA. fumigatusazole resistance due to Y121F/T289A/TR46 in the United States, suggesting that multiple mutational alterations ofcyp51Aresulting in high-level azole resistance could occur during prolonged antifungal therapy.

scholarly journals Evaluation of MIC Strip Isavuconazole Test for Susceptibility Testing of Wild-Type and Non-Wild-Type Aspergillus fumigatus Isolates

2016 ◽  
Vol 61 (1) ◽  
Author(s):  
Maiken Cavling Arendrup ◽  
Paul Verweij ◽  
Henrik Vedel Nielsen
Keyword(s):  
Growth Inhibition ◽  
Aspergillus Fumigatus ◽  
Susceptibility Testing ◽  
Wild Type ◽  
Content Type

ABSTRACT We evaluated the MIC Strip Isavuconazole test against EUCAST E.Def 9.3 by using 40 wild-type and 39 CYP51A mutant Aspergillus fumigatus strains. The strip full inhibition endpoint (FIE) and 80% growth inhibition endpoint were determined by two independent readers, reader 1 (R1) and R2. The essential (within ±0, ±1, and ±2 twofold dilutions) and categorical agreements were best with the FIE (for R1/R2, 42%/41%, 75%/73%, and 90%/89% for essential agreement, and 91.1%/92.4% categorical agreement, with 6.3/8.9% very major errors and 0/1.3% major errors, respectively). The MIC Strip Isavuconazole test with the FIE appears to be useful.

scholarly journals In VitroActivity of ASP2397 against Aspergillus Isolates with or without Acquired Azole Resistance Mechanisms

2015 ◽  
Vol 60 (1) ◽  
pp. 532-536 ◽  
Author(s):  
Maiken Cavling Arendrup ◽  
Rasmus Hare Jensen ◽  
Manuel Cuenca-Estrella
Keyword(s):  
Amphotericin B ◽  
Target Gene ◽  
Antifungal Agents ◽  
Susceptibility Testing ◽  
Resistance Mechanisms ◽  
Azole Resistance ◽  
Wild Type ◽  
Resistance Mutations ◽  
Content Type

ABSTRACTASP2397 is a new compound with a novel and as-yet-unknown target different from that of licensed antifungal agents. It has activity againstAspergillusandCandida glabrata. We compared itsin vitroactivity against wild-type and azole-resistantA. fumigatusandA. terreusisolates with that of amphotericin B, itraconazole, posaconazole, and voriconazole. Thirty-four isolates, including 4 wild-typeA. fumigatusisolates, 24A. fumigatusisolates with alterations in CYP51A TR/L98H (5 isolates), M220 (9 isolates), G54 (9 isolates), and HapE (1 isolate), andA. terreusisolates (2 wild-type isolates and 1 isolate with an M217I CYP51A alteration), were analyzed. EUCAST E.Def 9.2 and CLSI M38-A2 MIC susceptibility testing was performed. ASP2397 MIC50values (in milligrams per liter, with MIC ranges in parentheses) determined by EUCAST and CLSI were 0.5 (0.25 to 1) and 0.25 (0.06 to 0.25) againstA. fumigatusCYP51A wild-type isolates and were similarly 0.5 (0.125 to >4) and 0.125 (0.06 to >4) against azole-resistantA. fumigatusisolates, respectively. These values were comparable to those for amphotericin B, which were 0.25 (0.125 to 0.5) and 0.25 (0.125 to 0.25) against wild-type isolates and 0.25 (0.125 to 1) and 0.25 (0.125 to 1) against isolates with azole resistance mechanisms, respectively. In contrast, MICs for the azole compounds were elevated and highest for itraconazole: >4 (1 to >4) and 4 (0.5 to >4) against isolates with azole resistance mechanisms compared to 0.125 (0.125 to 0.25) and 0.125 (0.06 to 0.25) against wild-type isolates, respectively. ASP2397 was active againstA. terreusCYP51A wild-type isolates (MIC 0.5 to 1), whereas MICs of both azole and ASP2397 were elevated for the mutant isolate. ASP2397 displayedin vitroactivity againstA. fumigatusandA. terreusisolates which was independent of the presence or absence of azole target gene resistance mutations inA. fumigatus. The findings are promising at a time when azole-resistantA. fumigatusis emerging globally.

scholarly journals Itraconazole, Voriconazole, and Posaconazole CLSI MIC Distributions for Wild-Type and Azole-Resistant Aspergillus fumigatus Isolates

2018 ◽  
Vol 4 (3) ◽  
pp. 103 ◽  
Author(s):  
Jochem Buil ◽  
Ferry Hagen ◽  
Anuradha Chowdhary ◽  
Paul Verweij ◽  
Jacques Meis
Keyword(s):  
Aspergillus Fumigatus ◽  
Minimal Inhibitory Concentration ◽  
Susceptibility Testing ◽  
Inhibitory Concentration ◽  
Azole Resistance ◽  
Wild Type ◽  
Gene Encoding ◽  
Environmental Resistance ◽  
Resistance Selection ◽  
Susceptibility Profiles

Azole resistance in Aspergillus fumigatus is most frequently conferred by mutations in the cyp51A gene encoding 14α-sterol demethylases. TR34/L98H and TR46/Y121F/T289A are the two most common mutations associated with environmental resistance selection. We studied the minimal inhibitory concentration (MIC) distribution of clinical A. fumigatus isolates to characterize the Clinical and Laboratory Standards Institute (CLSI) susceptibility profiles of isolates with the wild-type (WT) cyp51A genotype, and isolates with the TR34/L98H and TR46/Y121F/T289A cyp51A mutations. Susceptibility testing was performed according to CLSI M38-A2. The MICs of 363 A. fumigatus isolates were used in this study. Based on the CLSI epidemiological cut-off values (ECVs), 141 isolates were phenotypically non-WT and 222 isolates had a phenotypically WT susceptibility. All isolates with the TR34/L98H mutation had an itraconazole MIC > 1 mg/L which is above the CLSI ECV. Eighty-six of 89 (97%) isolates with the TR34/L98H mutation had voriconazole and posaconazole MICs above the CLSI ECV, i.e., MICs of 1 and 0.25 mg/L, respectively. The isolates with a TR46/Y121F/T289A mutation showed a different phenotype. All 37 isolates with a TR46/Y121F/T289A mutation had a voriconazole MIC above the CLSI ECV, while 28/37 (76%) isolates had an itraconazole MIC > 1 mg/L. Interestingly, only 13 of 37 (35%) isolates had a posaconazole MIC > 0.25 mg/L.

scholarly journals Susceptibility Testing of Common and Uncommon Aspergillus Species against Posaconazole and Other Mold-Active Antifungal Azoles Using the Sensititre Method

2017 ◽  
Vol 61 (6) ◽  
Author(s):  
Enrica Mello ◽  
Brunella Posteraro ◽  
Antonietta Vella ◽  
Elena De Carolis ◽  
Riccardo Torelli ◽  
...  
Keyword(s):  
Antifungal Agents ◽  
Susceptibility Testing ◽  
Reference Method ◽  
Aspergillus Species ◽  
Wild Type ◽  
Mutant Genotype ◽  
Cutoff Value ◽  
Content Type

ABSTRACT We tested 59 common and 27 uncommon Aspergillus species isolates for susceptibility to the mold-active azole antifungal agents itraconazole, voriconazole, and posaconazole using the Sensititre method. The overall essential agreement with the CLSI reference method was 96.5% for itraconazole and posaconazole and was 100% for voriconazole. By the Sensititre method as well as the CLSI reference method, all of 10 A. fumigatus isolates with a cyp51 mutant genotype were classified as being non-wild-type isolates (MIC > epidemiological cutoff value [ECV]) with respect to triazole susceptibility.

scholarly journals Five-Year Survey (2014 to 2018) of Azole Resistance in Environmental Aspergillus fumigatus Isolates from China

2020 ◽  
Vol 64 (10) ◽  
Author(s):  
Duantao Cao ◽  
Ruilin Wu ◽  
Suxia Dong ◽  
Feiyan Wang ◽  
Chao Ju ◽  
...  
Keyword(s):  
Aspergillus Fumigatus ◽  
Soil Samples ◽  
Azole Resistance ◽  
Clinical Settings ◽  
Wild Type ◽  
Content Type

ABSTRACT A total of 191 soil samples from Hangzhou, China, were submitted to detect non-wild-type (non-WT) Aspergillus fumigatus and its associated mechanisms. There were 2 (4.7%), 13 (12.4%), and 31 (23.1%) isolates identified as non-WT in 2014, 2016, and 2018, respectively. The resistant mutations of TR34/L98H, TR46/Y121F/T289A, and TR34/L98H/S297T/F495I were found in 3, 5, and 5 non-WT isolates. The G448S mutation, previously only found in clinical settings, was detected in A. fumigatus from soil samples.

scholarly journals In VitroBiochemical Study of CYP51-Mediated Azole Resistance in Aspergillus fumigatus

2015 ◽  
Vol 59 (12) ◽  
pp. 7771-7778 ◽  
Author(s):  
Andrew G. S. Warrilow ◽  
Josie E. Parker ◽  
Claire L. Price ◽  
W. David Nes ◽  
Steven L. Kelly ◽  
...  
Keyword(s):  
Aspergillus Fumigatus ◽  
Inhibitory Concentration ◽  
Point Mutations ◽  
Residual Activity ◽  
Azole Resistance ◽  
Wild Type ◽  
Biochemical Basis ◽  
Content Type ◽  
Resistant Phenotype

ABSTRACTThe incidence of triazole-resistantAspergillusinfections is increasing worldwide, often mediated through mutations in the CYP51A amino acid sequence. New classes of azole-based drugs are required to combat the increasing resistance to existing triazole therapeutics. In this study, a CYP51 reconstitution assay is described consisting of eburicol, purified recombinantAspergillus fumigatusCPR1 (AfCPR1), andEscherichia colimembrane suspensions containing recombinantA. fumigatusCYP51 proteins, allowingin vitroscreening of azole antifungals. Azole-CYP51 studies determining the 50% inhibitory concentration (IC50) showed thatA. fumigatusCYP51B (Af51B IC50, 0.50 μM) was 34-fold more susceptible to inhibition by fluconazole thanA. fumigatusCYP51A (Af51A IC50, 17 μM) and that Af51A and Af51B were equally susceptible to inhibition by voriconazole, itraconazole, and posaconazole (IC50s of 0.16 to 0.38 μM). Af51A-G54W and Af51A-M220K enzymes were 11- and 15-fold less susceptible to inhibition by itraconazole and 30- and 8-fold less susceptible to inhibition by posaconazole than wild-type Af51A, confirming the azole-resistant phenotype of these two Af51A mutations. Susceptibility to voriconazole of Af51A-G54W and Af51A-M220K was only marginally lower than that of wild-type Af51A. Susceptibility of Af51A-L98H to inhibition by voriconazole, itraconazole, and posaconazole was only marginally lower (less than 2-fold) than that of wild-type Af51A. However, Af51A-L98H retained 5 to 8% residual activity in the presence of 32 μM triazole, which could confer azole resistance inA. fumigatusstrains that harbor the Af51A-L98H mutation. The AfCPR1/Af51 assay system demonstrated the biochemical basis for the increased azole resistance ofA. fumigatusstrains harboring G54W, L98H, and M220K Af51A point mutations.

scholarly journals The Strength of Synergistic Interaction between Posaconazole and Caspofungin Depends on the Underlying Azole Resistance Mechanism of Aspergillus fumigatus

2015 ◽  
Vol 59 (3) ◽  
pp. 1738-1744 ◽  
Author(s):  
Eleftheria Mavridou ◽  
Joseph Meletiadis ◽  
Antony Rijs ◽  
Johan W. Mouton ◽  
Paul E. Verweij
Keyword(s):  
Aspergillus Fumigatus ◽  
Resistance Mechanism ◽  
Fungal Growth ◽  
Resistance Mechanisms ◽  
Azole Resistance ◽  
Wild Type ◽  
Content Type ◽  
Synergistic Interactions ◽  
Drug Concentrations

ABSTRACTThe majority of azole resistance mechanisms inAspergillus fumigatuscorrespond to mutations in thecyp51Agene. As azoles are less effective against infections caused by multiply azole-resistantA. fumigatusisolates, new therapeutic options are warranted for treating these infections. We therefore investigated thein vitrocombination of posaconazole (POSA) and caspofungin (CAS) against 20 wild-type and resistantA. fumigatusisolates with 10 different resistance mechanisms. Fungal growth was assessed with the XTT [2,3-bis (2-methoxy-4-nitro-5-sulfophenyl)-2H-tetrazolium-5-carboxanilide inner salt] method. Pharmacodynamic interactions were assessed with the fractional inhibitory concentration (FIC) index (FICi) on the basis of 10% (FICi-0), 25% (FICi-1), or 53 0% (FICi-2) growth, and FICs were correlated with POSA and CAS concentrations. Synergy and antagonism were concluded when the FICi values were statistically significantly (ttest,P< 0.05) lower than 1 and higher than 1.25, respectively. Significant synergy was found for all isolates with mean FICi-0 values ranging from 0.28 to 0.75 (median, 0.46). Stronger synergistic interactions were found with FICi-1 (median, 0.18; range, 0.07 to 0.47) and FICi-2 (0.31; 0.07 to 0.6). The FICi-2 values of isolates with tandem-repeat-containing mutations or codon M220 were lower than those seen with the other isolates (P< 0.01). FIC-2 values were inversely correlated with POSA MICs (rs= −0.52,P= 0.0006) and linearly with the ratio of drug concentrations in combination over the MIC of POSA (rs= 0.76,P< 0.0001) and CAS (rs= 0.52,P= 0.0004). The synergistic effect of the combination of POSA and CAS (POSA/CAS) againstA. fumigatusisolates depended on the underlying azole resistance mechanism. Moreover, the drug combination synergy was found to be increased against isolates with elevated POSA MICs compared to wild-type isolates.

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