MURAL - Maynooth University Research Archive Library



    Exposure to caspofungin activates Cap and Hog pathways in Candida albicans.


    Kelly, Judy and Rowan, Raymond and McCann, Malachy and Kavanagh, Kevin (2009) Exposure to caspofungin activates Cap and Hog pathways in Candida albicans. Medical Mycology, 47. pp. 697-706.

    [img]
    Preview
    Download (478kB) | Preview
    Official URL: https://www.tandfonline.com/toc/immy20/current


    Share your research

    Twitter Facebook LinkedIn GooglePlus Email more...



    Add this article to your Mendeley library


    Abstract

    Caspofungin is a member of the echinocandin group of antifungals and inhibits the activity of B-glucan synthase thus disrupting cell wall formation and function. While the potent antifungal activity of this agent is well established, this paper analyzed the response of Candida albicans to caspofungin. Exposure of yeast cells to 0.19 μg/ml caspofungin for 1 to 4 h induced nuclear translocation of Cap1p which was confirmed by Western blotting and confocal microscopy. Caspofungin-treated cells demonstrated increased expression of a number of genes associated with the oxidative stress response, including glutathione reductase (GLR1), mitochondrial processing protease (MAS1) and manganese-superoxide dismutase (SOD2) as well as elevated activity of glutathione reductase and superoxide dismutase. Caspofungin treatment also leads to the nuclear localization of Hog1p as visualized by Western blot using anti-phospho-p38 MAPK (Thr180/Tyr182) antibody. This translocation event lead to increased mRNA levels of catalase (CAT1) but not alkyl hydroperoxide reductase (AHP1). The activity of catalase was increased and reached a maximum at 2 h. In addition, pre-exposure of C. albicans to hydrogen peroxide (0.5 mM, 60 min) conferred an increased tolerance to caspofungin. The data presented here highlight the potent antifungal activity of caspofungin and demonstrate that upon exposure to this agent, C. albicans activates the Cap and Hog pathways in an attempt to limit the oxidative and osmotic stresses associated with this drug.

    Item Type: Article
    Keywords: antifungal; Candida; caspofungin; oxidative stress in yeast; HOG1; Cap1p;
    Academic Unit: Faculty of Science and Engineering > Chemistry
    Item ID: 9679
    Depositing User: Dr. Malachy McCann
    Date Deposited: 13 Jul 2018 13:24
    Journal or Publication Title: Medical Mycology
    Publisher: Taylor and Francis Online
    Refereed: Yes
    URI:

      Repository Staff Only(login required)

      View Item Item control page

      Downloads

      Downloads per month over past year