Emily F Eix scite author profile

Candida spp. proliferate as surface-associated biofilms in a variety of clinical niches. These biofilms can be extremely difficult to eradicate in healthcare settings. Cells within biofilm communities grow as aggregates and produce a protective extracellular matrix, properties that impact the ability of the host to respond to infection. Cells that disperse from biofilms display a phenotype of enhanced pathogenicity. In this review, we highlight host-biofilm interactions for Candida, focusing on how biofilm formation influences innate immune responses.

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Augmenting the Activity of Chlorhexidine for Decolonization of Candida auris from Porcine skin

Johnson

Eix

Lam

et al. 2021

JoF

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Candida auris readily colonizes skin and efficiently spreads among patients in healthcare settings worldwide. Given the capacity of this drug-resistant fungal pathogen to cause invasive disease with high mortality, hospitals frequently employ chlorhexidine bathing to reduce skin colonization. Using an ex vivo skin model, we show only a mild reduction in C. auris following chlorhexidine application. This finding helps explain why chlorhexidine bathing may have failures clinically, despite potent in vitro activity. We further show that isopropanol augments the activity of chlorhexidine against C. auris on skin. Additionally, we find both tea tree (Melaleuca alternifolia) oil and lemongrass (Cymbopogon flexuosus) oil to further enhance the activity of chlorhexidine/isopropanol for decolonization. We link this antifungal activity to individual oil components and show how some of these components act synergistically with chlorhexidine/isopropanol. Together, the studies provide strategies to improve C. auris skin decolonization through the incorporation of commonly used topical compounds.

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Ex Vivo Human and Porcine Skin Effectively ModelCandida aurisColonization, Differentiating Robust and Poor Fungal Colonizers

Eix

Johnson

Wartman

et al. 2022

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Candida auris proliferates and persists on the skin of patients, often leading to healthcare-associated infections with high mortality. Here, we describe two clinically relevant skin models and show that C. auris grows similarly on human and porcine skin. Additionally, we demonstrate that other Candida spp., including those with phylogenetic similarity to C. auris, do not display high growth in the skin microenvironment. These studies highlight the utility of two ex vivo models of C. auris colonization that allow reproducible differentiation among Candida spp., which should be a useful tool for comparison of C. auris clinical isolates and genetically mutated strains.

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Host cytosolic RNA sensing pathway promotes T Lymphocyte-mediated mycobacterial killing in macrophages

et al. 2020

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Mycobacterial infection leads to activation of the RIG-I/MAVS/TBK1 RNA sensing pathway in macrophages but the consequences of this activation remains poorly defined. In this study, we determined that activation of this RNA sensing pathway stimulates ICAM-1 expression in M.avium-infected macrophage through the inhibition of the E3 ubiquitin ligase CRL4 COP1/DET1 . CRL4 when active targets the transcription factor ETV5 for degradation by the ubiquitin-proteasome system. In the absence of the ETV5 transcription factor, ICAM-1 expression is significantly decreased. The M.avium-induced ICAM-1 production is required for the formation of immune synapse between infected macrophages and antigen-specific CD4 + T lymphocytes, and is essential for CD4 + T lymphocyte-mediated mycobacterial killing in vitro and in mice. This study demonstrates a previously undefined mechanism by which a host cytosolic RNA sensing pathway contributes to the interplay between mycobacteria infected macrophages and antigen-specific T lymphocytes.

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Modeling Candida auris skin colonization: Mice, swine, and humans

Eix

Nett

2022

PLoS Pathog

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Emily F Eix

How Biofilm Growth Affects Candida-Host Interactions

Augmenting the Activity of Chlorhexidine for Decolonization of Candida auris from Porcine skin

Ex Vivo Human and Porcine Skin Effectively ModelCandida aurisColonization, Differentiating Robust and Poor Fungal Colonizers

Host cytosolic RNA sensing pathway promotes T Lymphocyte-mediated mycobacterial killing in macrophages

Modeling Candida auris skin colonization: Mice, swine, and humans

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