Literature DB >> 32571826

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

Hazim O Khalifa1,2, Teppei Arai1, Hidetaka Majima1, Akira Watanabe3, Katsuhiko Kamei1.   

Abstract

Infections caused by Candida glabrata have caused worldwide concern, especially when they are associated with increasing echinocandin and azole resistance. In this study, we analyzed the molecular mechanisms of azole and echinocandin resistance in C. glabrata isolates obtained from hospitalized patients in Japan from 1997 to 2019. All isolates were checked phenotypically for resistance and genotypically for mutations in PDR1, ERG11, hot spot 1 (HS1), HS2, and HS3 of FKS1, and HS1 and HS2 of FKS2, and all isolates 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 rates of resistance to azoles, ranging from 2.3% to 9.3%, and only 4.7% of the isolates were non-wild type for flucytosine susceptibility. For the first time in Japan, 4.7% of the isolates were identified as multidrug-resistant strains. Nonsynonymous mutations in PDR1, including two novel mutations associated with azole resistance, were identified in 39.5% of the isolates, 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 (STs), with 3 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, since understanding the molecular mechanisms underlying fungal resistance is imperative for guiding specific therapy for efficient patient treatment and promoting strategies to prevent epidemic spread.
Copyright © 2020 American Society for Microbiology.

Entities:  

Keywords:  C. glabrata; Japan; azole resistance; echinocandin resistance; multidrug resistance

Mesh:

Substances:

Year:  2020        PMID: 32571826      PMCID: PMC7449192          DOI: 10.1128/AAC.00783-20

Source DB:  PubMed          Journal:  Antimicrob Agents Chemother        ISSN: 0066-4804            Impact factor:   5.191


  32 in total

Review 1.  Progress in antifungal susceptibility testing of Candida spp. by use of Clinical and Laboratory Standards Institute broth microdilution methods, 2010 to 2012.

Authors:  M A Pfaller; D J Diekema
Journal:  J Clin Microbiol       Date:  2012-06-27       Impact factor: 5.948

2.  Amino acid substitutions in Erg11p of azole-resistant Candida glabrata: Possible effective substitutions and homology modelling.

Authors:  Mojtaba Nabili; Atefeh Abdollahi Gohar; Hamid Badali; Rasoul Mohammadi; Maryam Moazeni
Journal:  J Glob Antimicrob Resist       Date:  2016-05-02       Impact factor: 4.035

3.  Changing epidemiology of candidaemia in Australia.

Authors:  Belinda Chapman; Monica Slavin; Debbie Marriott; Catriona Halliday; Sarah Kidd; Ian Arthur; Narin Bak; Christopher H Heath; Karina Kennedy; C Orla Morrissey; Tania C Sorrell; Sebastian van Hal; Caitlin Keighley; Emma Goeman; Neil Underwood; Krispin Hajkowicz; Ann Hofmeyr; Michael Leung; Nenad Macesic; Jeannie Botes; Christopher Blyth; Louise Cooley; C Robert George; Pankaja Kalukottege; Alison Kesson; Brendan McMullan; Robert Baird; Jennifer Robson; Tony M Korman; Stella Pendle; Kerry Weeks; Eunice Liu; Elaine Cheong; Sharon Chen
Journal:  J Antimicrob Chemother       Date:  2017-04-01       Impact factor: 5.790

4.  [National Trends in the Distribution of Candida Species Causing Candidemia in Japan from 2003 to 2014].

Authors:  Hiroshi Kakeya; Koichi Yamada; Yukihiro Kaneko; Katsunori Yanagihara; Kazuhiro Tateda; Shigefumi Maesaki; Yoshio Takesue; Kazunori Tomono; Jun-Ichi Kadota; Mitsuo Kaku; Yoshitsugu Miyazaki; Katsuhiko Kamei; Kazutoshi Shibuya; Yoshitiho Niki; Minoru Yoshida; Yoshihiro Sei
Journal:  Med Mycol J       Date:  2018

5.  Correlation between broth microdilution and disk diffusion methods for antifungal susceptibility testing of caspofungin, voriconazole, amphotericin B, itraconazole and fluconazole against Candida glabrata.

Authors:  N Kiraz; I Dag; Y Oz; M Yamac; A Kiremitci; N Kasifoglu
Journal:  J Microbiol Methods       Date:  2010-05-21       Impact factor: 2.363

6.  Echinocandin resistance and population structure of invasive Candida glabrata isolates from two university hospitals in Germany and Austria.

Authors:  Ulrike Klotz; Dirk Schmidt; Birgit Willinger; Eike Steinmann; Jan Buer; Peter-Michael Rath; Joerg Steinmann
Journal:  Mycoses       Date:  2016-01-25       Impact factor: 4.377

7.  Profiling of PDR1 and MSH2 in Candida glabrata Bloodstream Isolates from a Multicenter Study in China.

Authors:  Xin Hou; Meng Xiao; He Wang; Shu-Ying Yu; Ge Zhang; Yanan Zhao; Ying-Chun Xu
Journal:  Antimicrob Agents Chemother       Date:  2018-05-25       Impact factor: 5.191

8.  Estimation of Direct Healthcare Costs of Fungal Diseases in the United States.

Authors:  Kaitlin Benedict; Brendan R Jackson; Tom Chiller; Karlyn D Beer
Journal:  Clin Infect Dis       Date:  2019-05-17       Impact factor: 9.079

9.  Epidemiology, practice patterns, and prognostic factors for candidemia; and characteristics of fourteen patients with breakthrough Candida bloodstream infections: a single tertiary hospital experience in Japan.

Authors:  Ryuichi Hirano; Yuichi Sakamoto; Junichi Kitazawa; Shoji Yamamoto; Hiroyuki Kayaba
Journal:  Infect Drug Resist       Date:  2018-05-31       Impact factor: 4.003

10.  Multilocus Sequence Typing (MLST) Genotypes of Candida glabrata Bloodstream Isolates in Korea: Association With Antifungal Resistance, Mutations in Mismatch Repair Gene (Msh2), and Clinical Outcomes.

Authors:  Seung A Byun; Eun Jeong Won; Mi-Na Kim; Wee Gyo Lee; Kyungwon Lee; Hye Soo Lee; Young Uh; Kelley R Healey; David S Perlin; Min Ji Choi; Soo Hyun Kim; Jong Hee Shin
Journal:  Front Microbiol       Date:  2018-07-13       Impact factor: 5.640
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  6 in total

1.  Prevalence of Antifungal Resistance, Genetic Basis of Acquired Azole and Echinocandin Resistance, and Genotyping of Candida krusei Recovered from an International Collection.

Authors:  Hazim O Khalifa; Vit Hubka; Akira Watanabe; Minoru Nagi; Yoshitsugu Miyazaki; Takashi Yaguchi; Katsuhiko Kamei
Journal:  Antimicrob Agents Chemother       Date:  2021-12-06       Impact factor: 5.938

2.  In Vitro Characterization of Twenty-One Antifungal Combinations against Echinocandin-Resistant and -Susceptible Candida glabrata.

Authors:  Hazim O Khalifa; Hidetaka Majima; Akira Watanabe; Katsuhiko Kamei
Journal:  J Fungi (Basel)       Date:  2021-02-02

3.  Multilocus Sequence Typing and Antifungal Susceptibility of Vaginal and Non-vaginal Candida glabrata Isolates From China.

Authors:  Yisheng Chen; Yongqin Wu; Kaiyi Lulou; Dongting Yao; Chunmei Ying
Journal:  Front Microbiol       Date:  2022-03-17       Impact factor: 5.640

4.  Comparative genomic analysis of clinical Candida glabrata isolates identifies multiple polymorphic loci that can improve existing multilocus sequence typing strategy.

Authors:  A Arastehfar; M Marcet-Houben; F Daneshnia; S J Taj-Aldeen; D Batra; S R Lockhart; E Shor; T Gabaldón; D S Perlin
Journal:  Stud Mycol       Date:  2021-11-29       Impact factor: 16.097

5.  Investigation of the Defective Growth Pattern and Multidrug Resistance in a Clinical Isolate of Candida glabrata Using Whole-Genome Sequencing and Computational Biology Applications.

Authors:  Osman Merdan; Ayşe Sena Şişman; Seçil Ak Aksoy; Samet Kızıl; Nazmiye Ülkü Tüzemen; Emel Yılmaz; Beyza Ener
Journal:  Microbiol Spectr       Date:  2022-07-18

Review 6.  Antifungal Resistance in Clinical Isolates of Candida glabrata in Ibero-America.

Authors:  Erick Martínez-Herrera; María Guadalupe Frías-De-León; Rigoberto Hernández-Castro; Eduardo García-Salazar; Roberto Arenas; Esther Ocharan-Hernández; Carmen Rodríguez-Cerdeira
Journal:  J Fungi (Basel)       Date:  2021-12-26
  6 in total

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