3.9 Article

A Novel Function for Hog1 Stress-Activated Protein Kinase in Controlling White-Opaque Switching and Mating in Candida albicans

Journal

EUKARYOTIC CELL
Volume 13, Issue 12, Pages 1557-1566

Publisher

AMER SOC MICROBIOLOGY
DOI: 10.1128/EC.00235-14

Keywords

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Funding

  1. National Science Council [NSC102-2320-B-002-027-MY3]
  2. Ministry of Science and Technology [MOST 103-2628-B-002-003-MY3]
  3. National Taiwan University [NTU 103R7787]

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Candida albicans is a commensal in heathy people but has the potential to become an opportunistic pathogen and is responsible for half of all clinical infections in immunocompromised patients. Central to understanding C. albicans behavior is the white-opaque phenotypic switch, in which cells can undergo an epigenetic transition between the white state and the opaque state. The phenotypic switch regulates multiple properties, including biofilm formation, virulence, mating, and fungus-host interactions. Switching between the white and opaque states is associated with many external stimuli, such as oxidative stress, pH, and N-acetylglucosamine, and is directly regulated by the Wor1 transcriptional circuit. The Hog1 stress-activated protein kinase (SAPK) pathway is recognized as the main pathway for adapting to environmental stress in C. albicans. In this work, we first show that loss of the HOG1 gene in a/a and alpha/alpha cells, but not a/alpha cells, results in 100% white-to-opaque switching when cells are grown on synthetic medium, indicating that switching is repressed by the a1/alpha 2 heterodimer that represses WOR1 gene expression. Indeed, switching in the hog1 Delta strain was dependent on the presence of WOR1, as a hog1 Delta wor1 Delta strain did not show switching to the opaque state. Deletion of PBS2 and SSK2 also resulted in C. albicans cells switching from white to opaque with 100% efficiency, indicating that the entire Hog1 SAPK pathway is involved in regulating this unique phenotypic transition. Interestingly, all Hog1 pathway mutants also caused defects in shmoo formation and mating efficiencies. Overall, this work reveals a novel role for the Hog1 SAPK pathway in regulating white-opaque switching and sexual behavior in C. albicans.

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