Teppei Arai scite author profile

The recent increase in azole-resistant Aspergillus fumigatus is a global concern. Identifying the mutations that confer azole resistance is essential for developing novel methods for prompt diagnosis and effective drug treatment. We screened A. fumigatus clinical isolates for novel mutations conferring azole resistance. We compared the genomic sequences of susceptible and resistant isolates without mutations in cyp51A (non-cyp51A) and found mutations in hmg1 and erg6 involved in ergosterol biosynthesis. We also found the novel mutations in these genes in azole-resistant isolates with different genetic backgrounds. The resistant isolates with mutations in hmg1 showed increased intracellular ergosterol levels compared with susceptible isolates. This finding supports the concept that the ergosterol level is a determinant for resistance to any class of azoles. Multiple isolates with increased resistance to azole possessed a mutation in hmg1, indicating that this mutation is widely present in non-cyp51A azole-resistant A. fumigatus.

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Genetic Basis of Azole and Echinocandin Resistance in Clinical Candida glabrata in Japan

Khalifa

Arai

Majima

et al. 2020

Antimicrob Agents Chemother

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Infections caused by Candida glabrata have gained worldwide concern especially if associated with increasing echinocandin and azole resistance. In this study, we analyzed the molecular mechanisms of azole and echinocandin resistance in C. glabrata obtained from hospitalized patients in Japan from 1997 to 2019. All isolates were checked phenotypically for resistance, genotypically to detect mutations in PDR1, ERG11, and hot spot 1 (HS1), HS2, and HS3 of FKS1, and HS1 and HS2 of FKS2, and were genotyped by multilocus sequence typing (MLST). Interestingly, 32.6% of the isolates were resistant to caspofungin, and 4.7% were resistant to micafungin. The isolates showed low resistance rates to azoles ranging from 2.3% to 9.3%, and only 4.7% of the isolates were non-wild type for 5-flucytosine susceptibility. For the first time in Japan, 4.7% of the isolates were identified as multidrug-resistant strains. Nonsynonymous mutations in PDR1 were identified in 39.5% of the isolates including two novel mutations associated with azole resistance, and a single nonsynonymous mutation was identified in ERG11. Nine isolates from the same patient harbored nonsynonymous mutations in HS1 of FKS2, and a single isolate harbored a single nonsynonymous mutation in HS1 of FKS1. MLST genotyping revealed 13 different sequence types (ST), with three new STs, and ST7 was the most prevalent among the patients (35%) and was associated with high resistance rates. Our results are of crucial clinical concern, as understanding the molecular mechanisms underlying fungal resistance is imperative for guiding specific therapy for efficient patient treatment and promoting strategies to prevent epidemic spread.

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High detection rate of azole-resistantAspergillus fumigatusafter treatment with azole antifungal drugs among patients with chronic pulmonary aspergillosis in a single hospital setting with low azole resistance

Takeda

Suzuki

Watanabe

et al. 2020

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Abstract The prevalence of azole-resistant Aspergillus fumigatus (ARAF) among chronic pulmonary aspergillosis (CPA) patients treated with azoles in Japan is unknown. The aim of this study was to determine the detection rate of ARAF in isolates from CPA patients who were treated with azoles for varying durations. The potential mechanism of acquiring resistance was examined by sequencing cyp51A and hmg1, two genes associated with ARAF. A. fumigatus isolates (n = 120) were collected from CPA patients (n = 104) between February 2012 and February 2019, at National Hospital Organization Tokyo National Hospital. The isolates were tested for susceptibility to the azole drugs itraconazole (ITCZ) and voriconazole (VRCZ). The detection rate of ARAF among all isolates was 8.3% (n = 10). Of the 10 resistant isolates, eight were ITCZ-resistant and five were VRCZ-resistant. Among 47 isolates obtained from 36 CPA patients who were treated with ITCZ (for an average of 256 days) and/or VRCZ (for an average of 29 days), the resistance rates were 17.0% and 10.6%, respectively. In addition, 46.2% of 13 isolates obtained from CPA patients with ongoing azole treatment at the time of antifungal therapy failure were resistant to azoles. Among the 10 ARAF isolates, a point mutation was detected in cyp51A in seven isolates and in hmg1 in two isolates. ARAF was detected at a high rate in CPA patients, particularly in those with ongoing long-term azole treatment, at the time of azole antifungal therapy failure.

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Aspergillus fumigatus Clinical Isolates Carrying CYP51A with TR34/L98H/S297T/F495I Substitutions Detected after Four-Year Retrospective Azole Resistance Screening in Brazil

Pontes

Beraquet

Arai

et al. 2020

Antimicrob Agents Chemother

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Azole antifungal resistance in Aspergillus fumigatus is a worldwide concern. As in most public hospitals in Brazil, antifungal susceptibility tests are not routinely performed for filamentous fungi at our institution. A 4-year retrospective azole antifungal resistance screening revealed two azole-resistant A. fumigatus clinical isolates carrying the CYP51A TR34 (34-bp tandem repeat)/L98H (change of L to H at position 98)/S297T/F495I resistance mechanism mutations, obtained from two unrelated patients. Broth microdilution antifungal susceptibility testing showed high MICs for itraconazole, posaconazole, and miconazole. Short tandem repeat (STR) typing analysis presented high levels of similarity between these two isolates and clinical isolates with the same mutations reported from the Netherlands, Denmark, and China, as well as environmental isolates from Taiwan. Our findings might indicate that active searching for resistant A. fumigatus is necessary. They also represent a concern considering that our hospital provides tertiary care assistance to immunocompromised patients who may be exposed to resistant environmental isolates. We also serve patients who receive prophylactic antifungal therapy or treatment for invasive fungal infections for years. In these two situations, isolates resistant to the antifungal in use may be selected within the patients themselves. We do not know the potential of this azole-resistant A. fumigatus strain to spread throughout our country. In this scenario, the impact on the epidemiology and use of antifungal drugs will significantly alter patient care, as in other parts of the world. In summary, this finding is an important contribution to alert hospital laboratories conducting routine microbiological testing to perform azole resistance surveillance and antifungal susceptibility tests of A. fumigatus isolates causing infection or colonization in patients at high risk for systemic aspergillosis.

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Hmg1 mutations in Aspergillus fumigatus and their contribution to triazole susceptibility

Arai

Umeyama

Majima

et al. 2021

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Triazole-resistant Aspergillus fumigatus is a global health concern. In general, each triazole resistance pattern caused by the specified amino acid substitution of Cyp51A has a typical pattern depending on the mutation site. We evaluated the contribution of both Cyp51A and Hmg1 mutations to atypical triazole resistance in A. fumigatus. We used clinical triazole-resistant A. fumigatus strains collected in Japan and investigated the sequences of cyp51A and hmg1 genes. To delineate the association between the hmg1 mutation and atypical triazole resistance, the mutant hmg1 alleles in clinical multi-azole resistant strains were replaced with the wild-type hmg1 allele by CRISPR/Cas9 system. In our study, the combination of Cyp51A mutation and Hmg1 mutation was shown to additively contribute to triazole resistance. We also demonstrated that the triazole resistance conferred by the Hmg1 mutation showed a different pattern depending on the mutation site, similar to the Cyp51A mutation. Our results indicate that focusing on the phenotypes of multiple genes is essential to clarify the overall picture of the triazole resistance mechanism of A. fumigatus. Lay Summary The number of triazole-resistant Aspergillus fumigatus is increasing. We confirmed thatmutation in a hydroxymethylglutaryl-CoA reductase (Hmg1) in the fungus contributesto the resistance separately from Cyp51A mutation, and that susceptibility patterns aredifferent based on mutation site.

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Teppei Arai

Non-cyp51AAzole-ResistantAspergillus fumigatusIsolates with Mutation in HMG-CoA Reductase

Genetic Basis of Azole and Echinocandin Resistance in Clinical Candida glabrata in Japan

High detection rate of azole-resistantAspergillus fumigatusafter treatment with azole antifungal drugs among patients with chronic pulmonary aspergillosis in a single hospital setting with low azole resistance

Aspergillus fumigatus Clinical Isolates Carrying CYP51A with TR34/L98H/S297T/F495I Substitutions Detected after Four-Year Retrospective Azole Resistance Screening in Brazil

Hmg1 mutations in Aspergillus fumigatus and their contribution to triazole susceptibility

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