Candida glabrata Binding to Candida albicans Hyphae Enables Its Development in Oropharyngeal Candidiasis

Tati, Swetha; Davidow, Peter; McCall, Andrew D.; Hwang-Wong, Elizabeth; Rojas, Isolde G.; Cormack, Brendan P.; Edgerton, Mira

doi:10.1371/journal.ppat.1005522

Cited by 118 publications

(123 citation statements)

References 53 publications

(57 reference statements)

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“…Based on the CFU/mL data analysis of yeast recovered from the buccal cavity of immunosuppressed mice with single infections, the recovery observed were equivalent to 6.05 log10 for groups infected with C. krusei and 4.49 log10 for groups infected with C. glabrata, showing that C. krusei had a higher colonization ability compared to C. glabrata. The low CFU count of C. glabrata is consistent with Tati et al (25) who tried to establish a model of oropharyngeal candidiasis with C. glabrata. The authors used inocula size of ranging 1x10 10 cells/mL and recovered 4-7x10 2 cells/mL from the tongue.…”

Section: Mixed Biofilms Formed By Non-albicans Speciessupporting

confidence: 85%

Study of Microbial Interaction Formed by "Candida krusei" and "Candida glabrata": "In Vitro" and "In Vivo" Studies

et al. 2017

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Recently, the non-albicans Candida species have become recognized as an important source of infection and oral colonization by association of different species in a large number of immunosuppressed patients. The objective of this study was to evaluate the interactions between C. krusei and C. glabrata in biofilms formed in vitro and their ability to colonize the oral cavity of mouse model. Monospecies and mixed biofilms were developed of each strain, on 96-well microtiter plates for 48 h. These biofilms were analyzed by counting colony-forming units (CFU/mL) and by determining cell viability, using the XTT hydroxide colorimetric assay. For the in vivo study, twenty-four mice received topical applications of monospecie or mixed suspensions of each strain. After 48 h, yeasts were recovered from the mice and quantified by CFU/mL count. In the biofilm assays, the results for the CFU/mL count and the XTT assay showed that the two species studied were capable of forming high levels of in vitro monospecie biofilm. In mixed biofilm, the CFU of C. krusei increased (p=0.0001) and C. glabrata decreased (p=0.0001). The metabolic activity observed in XTT assay of mixed biofilm was significantly reduced compared with a single C. glabrata biofilm (p=0.0001). Agreeing with CFU in vitro count, C. glabrata CFU/mL values recovered from oral cavity of mice were statistically higher in the group with single infection (p=0.0001) than the group with mixed infection. We concluded that C. krusei inhibits C. glabrata and takes advantage to colonize the oral cavity and to form biofilms.

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Section: Mixed Biofilms Formed By Non-albicans Speciessupporting

confidence: 85%

Study of Microbial Interaction Formed by "Candida krusei" and "Candida glabrata": "In Vitro" and "In Vivo" Studies

et al. 2017

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“…Mice lacking these defensins show markedly increased susceptibility to OPC [30,69•,71]. IL-17 may also act on salivary gland cells, contributing to the production of antifungal AMPs such as histatins [72,73]. The combined action of IL-17 signaling promotes effective, non-redundant host defense to mucosal candidiasis.…”

Section: Innate Immunity At Mucosal Surfaces: Innate Type 17 Cellsmentioning

confidence: 99%

Candida albicans–epithelial interactions and induction of mucosal innate immunity

Naglik

König

Hube

et al. 2017

Current Opinion in Microbiology

115

112

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Candida albicans is a human fungal pathogen that causes millions of mucosal and life-threatening infections annually. C. albicans initially interacts with epithelial cells, resulting in fungal recognition and the formation of hyphae. Hypha formation is critical for host cell damage and immune activation, which are both driven by the secretion of Candidalysin, a recently discovered peptide toxin. Epithelial activation leads to the production of inflammatory mediators that recruit innate immune cells including neutrophils, macrophages and innate Type 17 cells, which together work with epithelial cells to clear the fungal infection. This review will focus on the recent discoveries that have advanced our understanding of C. albicans-epithelial interactions and the induction of mucosal innate immunity.

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“…While pathogenic mechanisms attributed to single fungal species have consumed much of mycology, it is believed that mycobiome studies will establish correlation between composition and function of the entire fungal community, and cross-kingdom interactions to disease processes. Notably, fungi-fungi interactions have been implicated in the pathogenic process; C. glabrata binds to the hyphae of C. albicans to establish oropharyngeal candidiasis, 129 thus supporting the need for mycobiome studies that consider the full context in which infection takes place. Culture-based isolation and characterization of pathogens remains of great necessity, however, development of novel in vitro (and even in vivo) models of polymicrobial communities would be ideal to test hypotheses into the role of the vaginal mycobiome in health and disease.…”

Section: Importance Of the Fungal Mycobiomementioning

confidence: 99%

The vaginal mycobiome: A contemporary perspective on fungi in women's health and diseases

2016

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Most of what is known about fungi in the human vagina has come from culture-based studies and phenotypic characterization of single organisms. Though valuable, these approaches have masked the complexity of fungal communities within the vagina. The vaginal mycobiome has become an emerging field of study as genomics tools are increasingly employed and we begin to appreciate the role these fungal communities play in human health and disease. Though vastly outnumbered by its bacterial counterparts, fungi are important constituents of the vaginal ecosystem in many healthy women. Candida albicans, an opportunistic fungal pathogen, colonizes 20% of women without causing any overt symptoms, yet it is one of the leading causes of infectious vaginitis. Understanding its mechanisms of commensalism and pathogenesis are both essential to developing more effective therapies. Describing the interactions between Candida, bacteria (such as Lactobacillus spp.) and other fungi in the vagina is fundamental to our characterization of the vaginal mycobiome.

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Candida glabrata Binding to Candida albicans Hyphae Enables Its Development in Oropharyngeal Candidiasis

Cited by 118 publications

References 53 publications

Study of Microbial Interaction Formed by "Candida krusei" and "Candida glabrata": "In Vitro" and "In Vivo" Studies

Study of Microbial Interaction Formed by "Candida krusei" and "Candida glabrata": "In Vitro" and "In Vivo" Studies

Candida albicans–epithelial interactions and induction of mucosal innate immunity

The vaginal mycobiome: A contemporary perspective on fungi in women's health and diseases

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