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- Title
Multifactor transcriptional control of alternative oxidase induction integrates diverse environmental inputs to enable fungal virulence.
- Authors
Liu, Zhongle; Basso, Pauline; Hossain, Saif; Liston, Sean D.; Robbins, Nicole; Whitesell, Luke; Noble, Suzanne M.; Cowen, Leah E.
- Abstract
Metabolic flexibility enables fungi to invade challenging host environments. In Candida albicans, a common cause of life-threatening infections in humans, an important contributor to flexibility is alternative oxidase (Aox) activity. Dramatic induction of this activity occurs under respiratory-stress conditions, which impair the classical electron transport chain (ETC). Here, we show that deletion of the inducible AOX2 gene cripples C. albicans virulence in mice by increasing immune recognition. To investigate further, we examined transcriptional regulation of AOX2 in molecular detail under host-relevant, ETC-inhibitory conditions. We found that multiple transcription factors, including Rtg1/Rtg3, Cwt1/Zcf11, and Zcf2, bind and regulate the AOX2 promoter, conferring thousand-fold levels of inducibility to AOX2 in response to distinct environmental stressors. Further dissection of this complex promoter revealed how integration of stimuli ranging from reactive species of oxygen, nitrogen, and sulfur to reduced copper availability is achieved at the transcriptional level to regulate AOX2 induction and enable pathogenesis. Metabolic flexibility allows fungi to invade hostile niches. Here, Liu et al. dissect the molecular mechanisms by which Candida albicans upregulates virulence-enabling alternative oxidase expression in response to host-relevant respiratory stresses.
- Subjects
FUNGAL virulence; CANDIDA albicans; REACTIVE oxygen species; IMMUNE recognition; GENETIC transcription regulation; NITROGEN in soils; OXIDASES; OXYGEN
- Publication
Nature Communications, 2023, Vol 14, Issue 1, p1
- ISSN
2041-1723
- Publication type
Article
- DOI
10.1038/s41467-023-40209-w