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Candida albicans gains azole resistance by altering sphingolipid composition.


ABSTRACT: Fungal infections by drug-resistant Candida albicans pose a global public health threat. However, the pathogen's diploid genome greatly hinders genome-wide investigations of resistance mechanisms. Here, we develop an efficient piggyBac transposon-mediated mutagenesis system using stable haploid C. albicans to conduct genome-wide genetic screens. We find that null mutants in either gene FEN1 or FEN12 (encoding enzymes for the synthesis of very-long-chain fatty acids as precursors of sphingolipids) exhibit resistance to fluconazole, a first-line antifungal drug. Mass-spectrometry analyses demonstrate changes in cellular sphingolipid composition in both mutants, including substantially increased levels of several mannosylinositolphosphoceramides with shorter fatty-acid chains. Treatment with fluconazole induces similar changes in wild-type cells, suggesting a natural response mechanism. Furthermore, the resistance relies on a robust upregulation of sphingolipid biosynthesis genes. Our results shed light into the mechanisms underlying azole resistance, and the new transposon-mediated mutagenesis system should facilitate future genome-wide studies of C. albicans.

SUBMITTER: Gao J 

PROVIDER: S-EPMC6206040 | biostudies-literature | 2018 Oct

REPOSITORIES: biostudies-literature

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Candida albicans gains azole resistance by altering sphingolipid composition.

Gao Jiaxin J   Wang Haitao H   Li Zeyao Z   Wong Ada Hang-Heng AH   Wang Yi-Zheng YZ   Guo Yahui Y   Lin Xin X   Zeng Guisheng G   Liu Haoping H   Wang Yue Y   Wang Jianbin J  

Nature communications 20181029 1


Fungal infections by drug-resistant Candida albicans pose a global public health threat. However, the pathogen's diploid genome greatly hinders genome-wide investigations of resistance mechanisms. Here, we develop an efficient piggyBac transposon-mediated mutagenesis system using stable haploid C. albicans to conduct genome-wide genetic screens. We find that null mutants in either gene FEN1 or FEN12 (encoding enzymes for the synthesis of very-long-chain fatty acids as precursors of sphingolipids  ...[more]

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