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Epitope Shaving Promotes Fungal Immune Evasion

Delma S. Childers, Gabriela Mol Avelar, Judith M. Bain, Arnab Pradhan, Daniel E. Larcombe, Mihai G. Netea, Lars P. Erwig, Neil A. R. Gow, Alistair J. P. Brown

2020mBio78 citationsDOIOpen Access PDF

Abstract

The immune system plays a critical role in protecting us against potentially fatal fungal infections. However, some fungal pathogens have evolved evasion strategies that reduce the efficacy of our immune defenses. Previously, we reported that the fungal pathogen Candida albicans exploits specific host-derived signals (such as lactate and hypoxia) to trigger an immune evasion strategy that involves reducing the exposure of β-glucan at its cell surface. Here, we show that this phenomenon is mediated by the induction of a major secreted exoglucanase (Xog1) by the fungus in response to these host signals. Inactivating XOG1 -mediated “shaving” of cell surface-exposed β-glucan enhances immune responses against the fungus. Furthermore, inhibiting exoglucanase activity pharmacologically attenuates C. albicans virulence. In addition to revealing the mechanism underlying a key immune evasion strategy in a major fungal pathogen of humans, our work highlights the potential therapeutic value of drugs that block fungal immune evasion.

Topics & Concepts

Immune systemEvasion (ethics)BiologyCell biologyPathogenExtracellularMicrobiologyImmunologyCellPhagocytosisCytokineCell wallInnate immune systemNeutrophil extracellular trapsHomeostasisImmunityMechanism (biology)Signal transductionCell metabolismPathogen-associated molecular patternMicrovesiclesAntibodyProgrammed cell deathEpitopeAntifungal resistance and susceptibilityFungal and yeast genetics researchFungal Infections and Studies
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