1. Homeostatic control of an iron repressor in a GI tract resident
- Author
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Yuanyuan Wang, Yinhe Mao, Xiaoqing Chen, Xinhuang Huang, Zhongyi Jiang, Kaiyan Yang, Lixing Tian, Tong Jiang, Yun Zou, Xiaoyuan Ma, Chaoyue Xu, Zili Zhou, Xianwei Wu, Lei Pan, Huaping Liang, Lin Zhong, and Changbin Chen
- Subjects
Candida albicans ,iron ,Hap43 ,oxidative damage ,cellular detoxification ,Medicine ,Science ,Biology (General) ,QH301-705.5 - Abstract
The transition metal iron plays a crucial role in living cells. However, high levels of iron are potentially toxic through the production of reactive oxygen species (ROS), serving as a deterrent to the commensal fungus Candida albicans for colonization in the iron-rich gastrointestinal tract. We observe that the mutant lacking an iron-responsive transcription factor Hap43 is hyper-fit for colonization in murine gut. We demonstrate that high iron specifically triggers multiple post-translational modifications and proteasomal degradation of Hap43, a vital process guaranteeing the precision of intestinal ROS detoxification. Reduced levels of Hap43 de-repress the expression of antioxidant genes and therefore alleviate the deleterious ROS derived from iron metabolism. Our data reveal that Hap43 functions as a negative regulator for oxidative stress adaptation of C. albicans to gut colonization and thereby provide a new insight into understanding the interplay between iron homeostasis and fungal commensalism.
- Published
- 2023
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