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Targeting epigenetic regulators to overcome drug resistance in the emerging human fungal pathogen Candida auris

Author

Listed:
  • Yuping Zhang

    (Nanchang University
    Chinese Academy of Sciences)

  • Lingbing Zeng

    (Nanchang University)

  • Xinhua Huang

    (Chinese Academy of Sciences)

  • Yuanyuan Wang

    (Chinese Academy of Sciences)

  • Guangsheng Chen

    (Chinese Academy of Sciences)

  • Munika Moses

    (Chinese Academy of Sciences)

  • Yun Zou

    (Chinese Academy of Sciences)

  • Sichu Xiong

    (Chinese Academy of Sciences)

  • Wenwen Xue

    (Nanjing Advanced Academy of Life and Health)

  • Yanmei Dong

    (Tianjin Key Laboratory of Hepatopancreatic Fiberosis and Molecular Diagnosis & Treatment)

  • Yueru Tian

    (Fudan University)

  • Ming Guan

    (Fudan University)

  • Lingfei Hu

    (Academy of Military Medical Sciences)

  • Zhe Yin

    (Academy of Military Medical Sciences)

  • Dongsheng Zhou

    (Academy of Military Medical Sciences)

  • Xiaotian Huang

    (Nanchang University)

  • Changbin Chen

    (Chinese Academy of Sciences
    Nanjing Advanced Academy of Life and Health)

Abstract

The rise of drug-resistant fungal species, such as Candida auris, poses a serious threat to global health, with mortality rates exceeding 40% and resistance rates surpassing 90%. The limited arsenal of effective antifungal agents underscores the urgent need for novel strategies. Here, we systematically evaluate the role of histone H3 post-translational modifications in C. auris drug resistance, focusing on acetylation mediated by Gcn5 and Rtt109, and methylation mediated by Set1, Set2, and Dot1. Mutants deficient in these enzymes exhibit varying degrees of antifungal drug sensitivity. Notably, we discover that GCN5 depletion and the subsequent loss of histone H3 acetylation downregulates key genes involved in ergosterol biosynthesis and drug efflux, resulting in increased susceptibility to azoles and polyenes. Additionally, Gcn5 regulates cell wall integrity and echinocandin resistance through the calcineurin signaling pathway and transcription factor Cas5. In infection models using Galleria mellonella and immunocompromised mice, GCN5 deletion significantly reduces the virulence of C. auris. Furthermore, the Gcn5 inhibitor CPTH2 synergizes with caspofungin in vitro and in vivo without notable toxicity. These findings highlight the critical role of Gcn5 in the resistance and pathogenicity of C. auris, positioning it as a promising therapeutic target for combating invasive fungal infections.

Suggested Citation

  • Yuping Zhang & Lingbing Zeng & Xinhua Huang & Yuanyuan Wang & Guangsheng Chen & Munika Moses & Yun Zou & Sichu Xiong & Wenwen Xue & Yanmei Dong & Yueru Tian & Ming Guan & Lingfei Hu & Zhe Yin & Dongsh, 2025. "Targeting epigenetic regulators to overcome drug resistance in the emerging human fungal pathogen Candida auris," Nature Communications, Nature, vol. 16(1), pages 1-19, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-59898-6
    DOI: 10.1038/s41467-025-59898-6
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    References listed on IDEAS

    as
    1. Adrian Bird, 2007. "Perceptions of epigenetics," Nature, Nature, vol. 447(7143), pages 396-398, May.
    2. Jian Bing & Zhangyue Guan & Tianhong Zheng & Craig L. Ennis & Clarissa J. Nobile & Changbin Chen & Haiqing Chu & Guanghua Huang, 2024. "Rapid evolution of an adaptive multicellular morphology of Candida auris during systemic infection," Nature Communications, Nature, vol. 15(1), pages 1-19, December.
    3. Yuanyuan Wang & Yun Zou & Xiaoqing Chen & Hao Li & Zhe Yin & Baocai Zhang & Yongbin Xu & Yiquan Zhang & Rulin Zhang & Xinhua Huang & Wenhui Yang & Chaoyue Xu & Tong Jiang & Qinyu Tang & Zili Zhou & Yi, 2022. "Innate immune responses against the fungal pathogen Candida auris," Nature Communications, Nature, vol. 13(1), pages 1-20, December.
    4. Jinglin L. Xie & Longguang Qin & Zhengqiang Miao & Ben T. Grys & Jacinto De La Cruz Diaz & Kenneth Ting & Jonathan R. Krieger & Jiefei Tong & Kaeling Tan & Michelle D. Leach & Troy Ketela & Michael F., 2017. "The Candida albicans transcription factor Cas5 couples stress responses, drug resistance and cell cycle regulation," Nature Communications, Nature, vol. 8(1), pages 1-18, December.
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