The first isolate of
            <i>Candida auris</i>
            in China: clinical and biological aspects

Wang, Xiaojuan; Jian, Bing; Zheng, Qiushi; Zhang, Feifei; Liu, Jingbo; Yue, Huizhen; Li, Tao; Du, Han; Wang, Yina; Wang, Hui; Huang, Guanghua

doi:10.1038/s41426-018-0095-0

Cited by 153 publications

(218 citation statements)

References 32 publications

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“…Candida auris was first described as a new species in 2009 from the ear discharge of a hospitalized patient in Japan (1). In the last decade, cases of C. auris have been reported from 18 countries on five continents including Asia, Africa, Europe, South America, and North America (2)(3)(4)(5)(6)(7)(8)(9)(10)(11)(12). Fungemia caused by C. auris is associated with a high mortality rate and therapeutic failure (13).…”

Section: Introductionmentioning

confidence: 99%

Laboratory Analysis of an Outbreak of Candida auris in New York from 2016 to 2018-Impact and Lessons Learned

Zhu

O’Brien

Leach

et al. 2019

Preprint

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Candida auris is a multidrug-resistant yeast which has emerged in healthcare facilities worldwide, however little is known about identification methods, patient colonization, spread, environmental survival, and drug resistance. Colonization on both biotic and abiotic surfaces, along with travel, appear to be the major factors for the spread of this pathogen across the globe.In this investigation, we present laboratory findings from an ongoing C. auris outbreak in NY from August 2016 through 2018. A total of 540 clinical isolates, 11,035 patient surveillance specimens, and 3,672 environmental surveillance samples were analyzed. Laboratory methods included matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF MS) for yeast isolate identification, real-time PCR for rapid surveillance sample screening, culture on selective/non-selective media for recovery of C. auris and other yeasts from surveillance samples, antifungal susceptibility testing to determine the C. auris resistance profile, and Sanger sequencing of ribosomal genes for C. auris genotyping. Results included: a) identification and confirmation of C. auris in 413 clinical isolates and 931 patient surveillance isolates, as well as identification of 277 clinical cases and 350 colonized cases from 151 healthcare facilities including 59 hospitals, 92 nursing homes, 1 long-term acute care hospital (LTACH), and 2 hospices, b) successful utilization of an in-house developed C. auris real-time PCR assay for the rapid screening of patient and environmental surveillance samples, c) demonstration of relatively heavier colonization of C. auris in nares compared to the axilla/groin, and d) predominance of the South Asia Clade I with intrinsic resistance to fluconazole and elevated minimum inhibitory concentration (MIC) to voriconazole (81%), amphotericin B

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Section: Introductionmentioning

confidence: 99%

Laboratory Analysis of an Outbreak of Candida auris in New York from 2016 to 2018-Impact and Lessons Learned

Zhu

O’Brien

Leach

et al. 2019

Preprint

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“…Because the ability to switch between unicellular and filamentous forms plays a role in pathogenesis in some fungi (reviewed in (11,12)), we were interested whether C. auris has the capability to form filaments as well. Several conditions, which induce hyphal growth in C. albicans, such as incubation at 37 °C, and Lee's medium at pH3.5 or pH6.5, as well as media containing serum, isoamyl alcohol, or bleocin, were tested, but none of these triggered filamentous growth in the S. Asian (clade I) C. auris strain UACa11 (data not shown) (15). Likewise, growth at 25 °C did not produce filaments as described previously for a C. auris clinical isolate (21).…”

Section: Auris Produces Pseudohyphae Under Genotoxic Stressmentioning

confidence: 99%

“…Filamentous growth allows the exploration of new environments and is considered a virulence trait in pathogenic fungi (reviewed in (13,14)). However, most cues causing filamentation in the best-studied and only distantly-related pathogen C. albicans do not induce filamentous growth in C. auris (15).…”

Section: Introductionmentioning

confidence: 98%

Pseudohyphal growth of the emerging pathogenCandida aurisis triggered by genotoxic stress through the S phase checkpoint

Ruiz

Ross

Gow

et al. 2019

Preprint

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The morphogenetic switching between yeast cells and filaments (true hyphae and pseudohyphae) is a key cellular feature required for full virulence in many polymorphic fungal pathogens, such as Candida albicans. In the recently emerged yeast pathogen Candida auris, occasional elongation of cells has been reported. However, environmental conditions and genetic triggers for filament formation have remained elusive. Here, we report that induction of DNA damage and perturbation of replication forks by treatment with genotoxins, such as hydroxyurea, methyl methanesulfonate, and the clinically relevant fungistatic 5-fluorocytosine, causes filamentation in C. auris. The filaments formed were characteristic of pseudohyphae and not parallel-sided true hyphae. Pseudohyphal growth is apparently signalled through the S phase checkpoint and, interestingly, is Tup1-independent in C. auris. Intriguingly, the morphogenetic switching capability is strain-specific in C. auris, highlighting the heterogenous nature of the species as a whole.

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“…The current murine models for C. auris infection have used immunocompetent and immunosuppressed models. In the immunocompetent models, mice are infected with inoculums that range from 10 5 to 10 7 cells per animal (21, 22). However, there appears to be a difference in survival between the studies by Fahkim et al and Wang et al (21, 22).…”

Section: Introductionmentioning

confidence: 99%

“…In the immunocompetent models, mice are infected with inoculums that range from 10 5 to 10 7 cells per animal (21, 22). However, there appears to be a difference in survival between the studies by Fahkim et al and Wang et al (21, 22). Fakhim et al used ICR an outbred murine strain and infected them using two clinical isolates from the South Asian clade, that were characterized as non-aggregative and virulent (21).…”

Section: Introductionmentioning

confidence: 99%

Impact of Candida auris infection in a neutropenic murine model

Torres

Pichowicz

Torres-Vélez

et al. 2019

Preprint

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Candida auris has become a global public health threat due to its multidrug resistance and persistence in hospital and nursing home settings. Although a skin colonizer, C. auris can cause fatal bloodstream infections and most patients succumb to multi-organ failure. Currently, there are limited animal models to study the progression of C. auris infection. Here we compare two murine models of neutrophil depletion using monoclonal antibodies 1A8, anti-Ly6G+ and RB6-8C5 anti-Ly6G+-Ly6C+. We also compare inoculums of 107 and 108 as well as the intravenous and gavage routes of infection. The results reveal that neutrophil depletion in BALB/c mice is sustained long-term with the 1A8 antibody and short-term with RB6-8C5. Target organs were kidney, heart and brain as these had the highest organ fungal burden in neutrophil depleted and to some extent in infected control mice. We found that C. auris is shed in urine and feces for neutrophil depleted mice. The gavage model is not an ideal route as dissemination was not detected. Eight days post C. auris infection all surviving mice display a unique behavioral phenotype characterized by torticollis and tail spin that progresses to head bobbing and body curling like phenotype by day 22, that continues to persist even 104 days post infection. Lastly, we found C. auris remains in tissues of infected control mice, 34 plus days post infection suggesting that C. auris stays present in the host without causing disease but becomes opportunistic upon a change in the hosts immune status such as neutrophil depletion.

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The first isolate of Candida auris in China: clinical and biological aspects

Cited by 153 publications

References 32 publications

Laboratory Analysis of an Outbreak of Candida auris in New York from 2016 to 2018-Impact and Lessons Learned

Laboratory Analysis of an Outbreak of Candida auris in New York from 2016 to 2018-Impact and Lessons Learned

Pseudohyphal growth of the emerging pathogenCandida aurisis triggered by genotoxic stress through the S phase checkpoint

Impact of Candida auris infection in a neutropenic murine model

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