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A Genome-Wide Screen of Deletion Mutants in the Filamentous Saccharomyces cerevisiae Background Identifies Ergosterol as a Direct Trigger of Macrophage Pyroptosis
Journal article   Open access   Peer reviewed

A Genome-Wide Screen of Deletion Mutants in the Filamentous Saccharomyces cerevisiae Background Identifies Ergosterol as a Direct Trigger of Macrophage Pyroptosis

Kristy Koselny, Nebibe Mutlu, Annabel Y Minard, Anuj Kumar, Damian J Krysan and Melanie Wellington
mBio, Vol.9(4), p.e01204-18
07/31/2018
DOI: 10.1128/mBio.01204-18
PMCID: PMC6069111
PMID: 30065091
url
https://doi.org/10.1128/mBio.01204-18View
Published (Version of record) Open Access

Abstract

Phagocytic cells such as macrophages play an important role in the host defense mechanisms mounted in response to the common human fungal pathogen , triggers macrophage NLRP3- -mediated pyroptosis, an inflammatory programmed cell death pathway. Here, we provide evidence that -dependent pyroptosis occurs in the kidney of infected mice during the early stages of infection. We have also used a genome-wide screen of nonessential Σ1278b genes to identify genes required for yeast-triggered macrophage pyroptosis. The set of genes identified by this screen was enriched for those with functions in lipid and sterol homeostasis and trafficking. These observations led us to discover that cell surface localization and/or total levels of ergosterol correlate with the ability of , , and to trigger pyroptosis. Since the mammalian sterol cholesterol triggers NLRP3-mediated pyroptosis, we hypothesized that ergosterol may also do so. Consistent with that hypothesis, ergosterol-containing liposomes but not ergosterol-free liposomes induce pyroptosis. Cell wall mannoproteins directly bind ergosterol, and we found that Dan1, an ergosterol receptor mannoprotein, as well as specific mannosyltransferases, is required for pyroptosis, suggesting that cell wall-associated ergosterol may mediate the process. Taken together, these data indicate that ergosterol, like mammalian cholesterol, plays a direct role in yeast-mediated pyroptosis. Innate immune cells such as macrophages are key components of the host response to the human fungal pathogen Macrophages undergo pyroptosis, an inflammatory, programmed cell death, in response to some species of pathogenic yeast. Prior to the work described in this report, yeast-triggered pyroptosis has been observed only ; here, we show that pyroptosis occurs in the initial stages of murine kidney infection, suggesting that it plays an important role in the initial response of the innate immune system to invasive yeast infection. We also show that a key component of the fungal plasma membrane, ergosterol, directly triggers pyroptosis. Ergosterol is also present in the fungal cell wall, most likely associated with mannoproteins, and is increased in hyphal cells compared to yeast cells. Our data indicate that specific mannoproteins are required for pyroptosis. This is consistent with a potential mechanism whereby ergosterol present in the outer mannoprotein layer of the cell wall is accessible to the macrophage-mediated process. Taken together, our data provide the first evidence that ergosterol plays a direct role in the host-pathogen interactions of fungi.
 Macrophages - physiology Cell Line Genetic Testing Pyroptosis Ergosterol - metabolism Kidney - pathology Saccharomyces cerevisiae - genetics Candida albicans - metabolism Candidiasis - microbiology Cryptococcus neoformans - metabolism Host-Pathogen Interactions Saccharomyces cerevisiae - metabolism Animals Gene Deletion Histocytochemistry Macrophages - drug effects Mice Candidiasis - pathology Disease Models, Animal

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