On the Emergence of Candida auris: Climate Change, Azoles, Swamps, and Birds

被引:261
|
作者
Casadevall, Arturo [1 ]
Kontoyiannis, Dimitrios P. [2 ]
Robert, Vincent [3 ]
机构
[1] Johns Hopkins Bloomberg Sch Publ Hlth, Dept Mol Microbiol & Immunol, Baltimore, MD 21205 USA
[2] Univ Texas MD Anderson Canc Ctr, Div Internal Med, Houston, TX 77030 USA
[3] Westerdijk Fungal Biodivers Inst, Utrecht, Netherlands
来源
MBIO | 2019年 / 10卷 / 04期
关键词
Candida; climate change; fungus; VIRULENCE; ALBICANS; GENOME; NOV;
D O I
10.1128/mBio.01397-19
中图分类号
Q93 [微生物学];
学科分类号
071005 ; 100705 ;
摘要
The most enigmatic aspect of the rise of Candida auris as a human pathogen is that it emerged simultaneously on three continents, with each Glade being genetically distinct. Although new pathogenic fungal species are described regularly, these are mostly species associated with single cases in individuals who are immunosuppressed. In this study, we used phylogenetic analysis to compare the temperature susceptibility of C. auris with those of its close relatives and to use these results to argue that it may be the first example of a new fungal disease emerging from climate change, with the caveat that many other factors may have contributed.
引用
收藏
页数:7
相关论文
共 50 条
  • [31] RAPID EMERGENCE OF CANDIDA AURIS IN NORTH ITALY, 2019 TO JULY 2022
    Sticchi, C.
    Vecchi, E.
    Ambretti, S.
    Gagliotti, C.
    Ricchizzi, E.
    Moro, M. L.
    Diegoli, G.
    Russo, F.
    Tonon, M.
    Raso, R.
    Maraglino, F.
    Rezza, G.
    Sabbatucci, M.
    INTERNATIONAL JOURNAL OF INFECTIOUS DISEASES, 2023, 130 : S130 - S131
  • [32] Pyrvinium Pamoate Synergizes with Azoles in vitro and in vivo to Exert Antifungal Efficacy Against Candida auris and Other Candida Species
    Zhang, Jinqing
    Li, Gaolian
    Hu, Jing
    Tan, Jingwen
    Zhang, Heng
    Zhou, Yizheng
    INFECTION AND DRUG RESISTANCE, 2025, 18 : 783 - 789
  • [33] Investigating the Emergence of Candida auris in a Resource Limited setting in West Africa
    Agbalaya, O.
    Adeleke, G.
    Ettu, A. W.
    Oladele, R.
    INTERNATIONAL JOURNAL OF INFECTIOUS DISEASES, 2022, 116 : S103 - S104
  • [34] Birds and climate change
    Archaux, F
    VIE ET MILIEU-LIFE AND ENVIRONMENT, 2003, 53 (01) : 33 - 41
  • [35] Regeneration potential of Taxodium distichum swamps and climate change
    Middleton, Beth A.
    PLANT ECOLOGY, 2009, 202 (02) : 257 - 274
  • [36] Are we ready for the global emergence of multidrug-resistant Candida auris in Taiwan?
    Lu, Po-Liang
    Liu, Wei-Lun
    Lo, Hsiu-Jung
    Wang, Fu-Der
    Ko, Wen-Chien
    Hsueh, Po-Ren
    Ho, Mao-Wang
    Liu, Chun-Eng
    Chen, Yen-Hsu
    Chen, Yee-Chun
    Chuang, Yin-Ching
    Chang, Shan-Chwen
    JOURNAL OF THE FORMOSAN MEDICAL ASSOCIATION, 2018, 117 (06) : 462 - 470
  • [37] Climate change, animals, and Candida auris: insights into the ecological niche of a new species from a One Health approach
    Garcia-Bustos, Victor
    Cabanero-Navalon, Marta Dafne
    Ruiz-Gaitan, Alba
    Salavert, Miguel
    Tormo-Mas, Maria Angeles
    Peman, Javier
    CLINICAL MICROBIOLOGY AND INFECTION, 2023, 29 (07) : 858 - 862
  • [38] Regeneration potential of Taxodium distichum swamps and climate change
    Beth A. Middleton
    Plant Ecology, 2009, 202
  • [39] On the emergence, spread and resistance of Candida auris: host, pathogen and environmental tipping points
    Chakrabarti, Arunaloke
    Sood, Prashant
    JOURNAL OF MEDICAL MICROBIOLOGY, 2021, 70 (03)
  • [40] Global emergence of a multi-drug resistant fungal pathogen, Candida auris
    Britz, Erika
    Govender, Nelesh P.
    SOUTHERN AFRICAN JOURNAL OF INFECTIOUS DISEASES, 2016, 31 (03) : 69 - 70
12345