Faith M. Anderson scite author profile

Candida albicans is a frequent colonizer of human mucosal surfaces as well as an opportunistic pathogen. C. albicans is remarkably versatile in its ability to colonize diverse host sites with differences in oxygen and nutrient availability, pH, immune responses, and resident microbes, among other cues. It is unclear how the genetic background of a commensal colonizing population can influence the shift to pathogenicity. Therefore, we examined 910 commensal isolates from 35 healthy donors to identify host niche-specific adaptations. We demonstrate that healthy people are reservoirs for genotypically and phenotypically diverse C. albicans strains. Using limited diversity exploitation, we identified a single nucleotide change in the uncharacterized ZMS1 transcription factor that was sufficient to drive hyper invasion into agar. We found that SC5314 was significantly different from the majority of both commensal and bloodstream isolates in its ability to induce host cell death. However, our commensal strains retained the capacity to cause disease in the Galleria model of systemic infection, including outcompeting the SC5314 reference strain during systemic competition assays. This study provides a global view of commensal strain variation and within-host strain diversity of C. albicans and suggests that selection for commensalism in humans does not result in a fitness cost for invasive disease.

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Monitoring Inflammasome Priming and Activation in Response to Candida albicans

Santana

Anderson

O’Meara

2020

CP Microbiology

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Candida albicans is a common mucosal colonizer, as well as a cause of lethal invasive fungal infections. The major predisposing factor for invasive fungal disease is a compromised immune system. One component of the host immune response to fungal infection is the activation of the inflammasome, a multimeric protein complex that is critical for regulating host pro-inflammatory responses. Here, we describe methods for investigating the interactions between C. albicans and host macrophages, with a focus on the inflammasome. C. albicans isolates differ in the degree to which they activate the inflammasome due to differences in internalization, morphogenic switching, and inflammasome priming. Therefore, we include protocols for identifying these factors. This simple in vitro model can be used to elucidate the contributions of specific C. albicans strains or mutants to different aspects of interactions with macrophages.

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Human commensalCandida albicansstrains demonstrate substantial within-host diversity and retained pathogenic potential

Anderson

Visser

Amses

et al. 2022

Preprint

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Candida albicans is a frequent colonizer of human mucosal surfaces as well as an opportunistic pathogen. C. albicans is remarkably versatile in its ability to colonize diverse host sites with differences in oxygen and nutrient availability, pH, immune responses, and resident microbes, among other cues. It is unclear how the genetic background of a commensal colonizing population can influence the shift to pathogenicity. Therefore, we undertook an examination of commensal isolates from healthy donors with a goal of identifying site-specific phenotypic adaptation and genetic variation associated with these phenotypes. We demonstrate that healthy people are reservoirs for genotypically and phenotypically diverse C. albicans strains, and that this genetic diversity includes both SNVs and structural rearrangements. Using limited diversity exploitation, we identified a single nucleotide change in the uncharacterized ZMS1 transcription factor that was sufficient to drive hyper invasion into agar. However, our commensal strains retained the capacity to cause disease in systemic models of infection, including outcompeting the SC5314 reference strain during systemic competition assays. This study provides a global view of commensal strain variation and within-host strain diversity of C. albicans and suggests that selection for commensalism in humans does not result in a fitness cost for invasive disease.

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Germination of a Field: Women in Candida albicans Research

Anderson

Polvi

Veri

et al. 2021

Curr Clin Micro Rpt

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Faith M. Anderson

Candida albicans selection for human commensalism results in substantial within-host diversity without decreasing fitness for invasive disease

Monitoring Inflammasome Priming and Activation in Response to Candida albicans

Human commensalCandida albicansstrains demonstrate substantial within-host diversity and retained pathogenic potential

Germination of a Field: Women in Candida albicans Research

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