Lactate signalling regulates fungal β-glucan masking and immune evasion

Elizabeth R Ballou; Gabriela M Avelar; Delma S Childers; Joanna Mackie; Judith M Bain; Jeanette Wagener; Stavroula L Kastora; Mirela D Panea; Sarah E Hardison; Louise A Walker; Lars P Erwig; Carol A Munro; Neil A R Gow; Gordon D Brown; Donna M MacCallum; Alistair J P Brown

doi:10.1038/nmicrobiol.2016.238

Lactate signalling regulates fungal β-glucan masking and immune evasion

Elizabeth R Ballou, Gabriela M Avelar, Delma S Childers, Joanna Mackie, Judith M Bain, Jeanette Wagener, Stavroula L Kastora, Mirela D Panea, Sarah E Hardison, Louise A Walker, Lars P Erwig, Carol A Munro, Neil A R Gow, Gordon D Brown, Donna M MacCallum, Alistair J P Brown

Biosciences

Research output: Contribution to journal › Article › peer-review

94 Citations (Scopus)

Abstract

As they proliferate, fungi expose antigens at their cell surface that are potent stimulators of the innate immune response, and yet the commensal fungus Candida albicans is able to colonize immuno competent individuals. We show that C. albicans may evade immune detection by presenting a moving immunological target. We report that the exposure of β-glucan, a key pathogen-associated molecular pattern (PAMP) located at the cell surface of C. albicans and other pathogenic Candida species, is modulated in response to changes in the carbon source. Exposure to lactate induces β-glucan masking in C. albicans via a signalling pathway that has recruited an evolutionarily conserved receptor (Gpr1) and transcriptional factor (Crz1) from other well-characterized pathways. In response to lactate, these regulators control the expression of cell-wall-related genes that contribute to β-glucan masking. This represents the first description of active PAMP masking by a Candida species, a process that reduces the visibility of the fungus to the immune system.

Original language	English
Article number	16238
Journal	Nature Microbiology
Volume	2
DOIs	https://doi.org/10.1038/nmicrobiol.2016.238
Publication status	Published - 12 Dec 2016

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Ballou, E. R., Avelar, G. M., Childers, D. S., Mackie, J., Bain, J. M., Wagener, J., Kastora, S. L., Panea, M. D., Hardison, S. E., Walker, L. A., Erwig, L. P., Munro, C. A., Gow, N. A. R., Brown, G. D., MacCallum, D. M., & Brown, A. J. P. (2016). Lactate signalling regulates fungal β-glucan masking and immune evasion. Nature Microbiology, 2, Article 16238. https://doi.org/10.1038/nmicrobiol.2016.238

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abstract = "As they proliferate, fungi expose antigens at their cell surface that are potent stimulators of the innate immune response, and yet the commensal fungus Candida albicans is able to colonize immuno competent individuals. We show that C. albicans may evade immune detection by presenting a moving immunological target. We report that the exposure of β-glucan, a key pathogen-associated molecular pattern (PAMP) located at the cell surface of C. albicans and other pathogenic Candida species, is modulated in response to changes in the carbon source. Exposure to lactate induces β-glucan masking in C. albicans via a signalling pathway that has recruited an evolutionarily conserved receptor (Gpr1) and transcriptional factor (Crz1) from other well-characterized pathways. In response to lactate, these regulators control the expression of cell-wall-related genes that contribute to β-glucan masking. This represents the first description of active PAMP masking by a Candida species, a process that reduces the visibility of the fungus to the immune system.",

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AU - Wagener, Jeanette

AU - Kastora, Stavroula L

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AU - Walker, Louise A

AU - Erwig, Lars P

AU - Munro, Carol A

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AB - As they proliferate, fungi expose antigens at their cell surface that are potent stimulators of the innate immune response, and yet the commensal fungus Candida albicans is able to colonize immuno competent individuals. We show that C. albicans may evade immune detection by presenting a moving immunological target. We report that the exposure of β-glucan, a key pathogen-associated molecular pattern (PAMP) located at the cell surface of C. albicans and other pathogenic Candida species, is modulated in response to changes in the carbon source. Exposure to lactate induces β-glucan masking in C. albicans via a signalling pathway that has recruited an evolutionarily conserved receptor (Gpr1) and transcriptional factor (Crz1) from other well-characterized pathways. In response to lactate, these regulators control the expression of cell-wall-related genes that contribute to β-glucan masking. This represents the first description of active PAMP masking by a Candida species, a process that reduces the visibility of the fungus to the immune system.

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JO - Nature Microbiology

JF - Nature Microbiology

M1 - 16238

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Lactate signalling regulates fungal β-glucan masking and immune evasion

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