Candida albicans commensalism in the oral mucosa is favoured by limited virulence and metabolic adaptation

Braunsdorf, Christina; Vicente, Kontxi Martinez de San; Fróis-Martins, Ricardo; Altmeier, Simon; Tran, Van Du T.; Mertens, Sarah; Amorim-Vaz, Sara; Shanker, Laxmi; d’Enfert, Christophe; Pagni, Marco; Sanglard, Dominique; LeibundGut‐Landmann, Salomé

doi:10.1371/journal.ppat.1010012

Cited by 16 publications

(8 citation statements)

References 80 publications

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“…We also identified the changes in SLE-specific fungal composition, including the obvious enrichment of Candida of Ascomycota phylum and the loss of Malassezia of Basidiomycota phylum, implying their potential role in the pathogenesis of SLE and deserving further investigation. Candida is an important opportunistic pathogenic fungus ( Witchley et al, 2019 ) and human symbiotic fungi in the gastrointestinal tract ( Alonso-Monge et al, 2021 ; McDonough et al, 2021 ), oral cavity ( Millet et al, 2020 ; Lemberg et al, 2022 ), and vagina ( Jang et al, 2019 ; Alvendal et al, 2020 ). The excessive growth of Candida is associated with a variety of diseases, including thrush ( Salvatori et al, 2016 ) and vaginal candidiasis.…”

Section: Discussionmentioning

confidence: 99%

Fungal gut microbiota dysbiosis in systemic lupus erythematosus

Yang

Chen

et al. 2023

Front. Microbiol.

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IntroductionDespite recent developments in our comprehension of how the gut microbiota and systemic lupus erythematosus (SLE) are related. The mycobiome: which is a small but crucial part of the gut microbiota and is involved in hosts’ homeostasis and physiological processes, remained unexplored in SLE.MethodsWe profiled the gut fungal mycobiota based on internal transcribed spacer region 1 (ITS1) sequencing for the gut microbial DNA from the SLE individuals with lupus nephritis (LN) (n = 23), SLE without LN (n = 26) and healthy controls (n = 14) enrolled in Nanjing Drum Tower Hospital, The Affiliated Hospital of Nanjing University Medical School.ResultsThe ITS sequencing generated a total of 4.63 million valid tags which were stratified into 4,488 operational taxonomic units (OTUs) and identified about 13 phyla and 262 genera. Patients with SLE were characterized with unique fungal flora feature. The fungal microbiomes of the three groups displayed distinct beta diversity from each other. Compared with HC group, the abundance of fungal dysbiosis was reflected in a higher ratio of opportunistic fungi in SLE or LN group, as well as the loss of Rhizopus and Malassezia. The main principal components of the flora between the SLE and LN group were generally consistent. The relative abundance of Vanrija in the fecal fungal community was higher in LN group, while the relative abundance of Fusarium was higher in SLE group. Moreover, our data revealed superior diagnostic accuracy for SLE with the fungal species (e.g. Candida, Meyerozyma). Correlations between gut fungi and clinical parameters were identified by Spearman’s correlation analysis. Interestingly, Aspergillus in SLE patients was positively correlated with ACR, 24 h proteinuria, proteinuria, anti-dsDNA, ANA, and SLEDAI, while Rhizopus was negatively correlated with lymphocytes and Hb. Finally, we successfully cultured the fungi and identified it as Candida glabrata by microscopic observation and mass spectrometry.DiscussionWe first explored the highly significant gut fungal dysbiosis and ecology in patients with SLE, and demonstrated the applicability of fungal species as SLE diagnostic tools, signifying that the gut fungal mycobiome-host interplay can potentially contribute in disease pathogenesis.

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Section: Discussionmentioning

confidence: 99%

Fungal gut microbiota dysbiosis in systemic lupus erythematosus

Yang

Chen

et al. 2023

Front. Microbiol.

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“…SC5314 has been widely acknowledged as a virulent lineage in mouse models, and since its isolation, it has been used as a wild-type reference in previous studies ( Padovan et al, 2009 ; Lionakis et al, 2011 ; Maza et al, 2017 ; Shankar et al, 2020 ; Lemberg et al, 2022 ). In turn, the studies that employed L3881 (first described as L757 lineage, Padovan et al, 2009 ) have not yet reached a conclusion about its virulence status.…”

Section: Discussionmentioning

confidence: 99%

“…Candida albicans is a human commensal fungus and the etiologic agent of infections in skin, oral and esophageal cavities, gastrointestinal tract, lungs, and bloodstream in immunocompromised individuals ( Kadosh and Lopez-Ribot, 2013 ; Lemberg et al, 2022 ). Although it is considered an opportunistic fungus, C. albicans is the most common cause of nosocomial fungal infections, with a mortality rate of ∼40% in patients with systemic infections ( Gudlaugsson et al, 2003 ; Perlroth et al, 2007 ; Erami et al, 2022 ; Jeong et al, 2022 ).…”

Section: Introductionmentioning

confidence: 99%

In vitro and in vivo Characterization of Host–Pathogen Interactions of the L3881 Candida albicans Clinical Isolate

et al. 2022

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Candida albicans is a human commensal fungus and the etiologic agent of nosocomial infections in immunocompromised individuals. Candida spp. is the most studied human fungal pathogen, and the mechanisms by which this fungus can evade the immune system affecting immunosuppressed individuals have been extensively studied. Most of these studies focus on different species of Candida, and there is much to be understood in virulence variability among lineages, specifically different C. albicans clinical isolates. To better understand the main mechanisms of its virulence variability modulated in C. albicans clinical isolates, we characterized L3881 lineage, which has been previously classified as hypovirulent, and SC5314 lineage, a virulent wild-type control, by using both in vitro and in vivo assays. Our findings demonstrated that L3881 presented higher capacity to avoid macrophage phagocytosis and higher resistance to oxidative stress than the wild type. These characteristics prevented higher mortality rates for L3881 in the animal model of candidiasis. Conversely, L3881 has been able to induce an upregulation of pro-inflammatory mediators both in vitro and in vivo. These results indicated that in vitro and in vivo functional characterizations are necessary for determination of virulence in different clinical isolates due to its modulation in the host–pathogen interactions.

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“…Multiple fungal and host factors contribute to C. albicans colonization of the oral mucosa and oropharyngeal candidiasis. On the fungus side, these include adhesins such as hyphal wall protein 1 (Hwp1) and agglutinin‐like sequence (Als) proteins (Martin et al., 2011; Murciano et al., 2012; Naglik et al., 2006; Staab et al., 1999); candidalysin, a secreted fungal peptide toxin (Moyes et al., 2016); regulators of biofilm formation (Solis et al., 2022); endocytosis factors (Naseem et al., 2019); and metabolic adaptations (Lemberg et al., 2022), among others. On the host side, oral epithelial cells respond to the infection by secreting antimicrobial peptides that directly kill the fungus and by releasing pro‐inflammatory cytokines that recruit neutrophils to the site of infection, where they can destroy C. albicans and limit the extent of epithelial cell damage (Swidergall & Filler, 2017; Trautwein‐Weidner et al., 2015; Weindl et al., 2007).…”

Section: Introductionmentioning

confidence: 99%

“…endocytosis factors (Naseem et al, 2019); and metabolic adaptations (Lemberg et al, 2022), among others. On the host side, oral epithelial cells respond to the infection by secreting antimicrobial peptides that directly kill the fungus and by releasing pro-inflammatory cytokines that recruit neutrophils to the site of infection, where they can destroy C. albicans and limit the extent of epithelial cell damage (Swidergall & Filler, 2017;Trautwein-Weidner et al, 2015;Weindl et al, 2007).…”

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confidence: 99%

RFX transcription factor in the human‐associated yeast Candida albicans regulates adhesion to oral epithelium

Rodríguez,

Lindemann‐Perez,

Perez

2024

Molecular Microbiology

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Adhesion to mucosal surfaces is a critical step in many bacterial and fungal infections. Here, using a mouse model of oral infection by the human fungal pathobiont Candida albicans, we report the identification of a novel regulator of C. albicans adhesion to the oral mucosa. The regulator is a member of the regulatory factor X (RFX) family of transcription factors, which control cellular processes ranging from genome integrity in model yeasts to tissue differentiation in vertebrates. Mice infected with the C. albicans rfx1 deletion mutant displayed increased fungal burden in tongues compared to animals infected with the reference strain. High‐resolution imaging revealed RFX1 transcripts being expressed by C. albicans cells during infection. Concomitant with the increase in fungal burden, the rfx1 mutant elicited an enhanced innate immune response. Transcriptome analyses uncovered HWP1, a gene encoding an adhesion protein that mediates covalent attachment to buccal cells, as a major RFX1‐regulated locus. Consistent with this result, we establish that C. albicans adhesion to oral cells is modulated by RFX1 in an HWP1‐dependent manner. Our findings expand the repertoire of biological processes controlled by the RFX family and illustrate a mechanism whereby C. albicans can adjust adhesion to the oral epithelium.

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Candida albicans commensalism in the oral mucosa is favoured by limited virulence and metabolic adaptation

Cited by 16 publications

References 80 publications

Fungal gut microbiota dysbiosis in systemic lupus erythematosus

Fungal gut microbiota dysbiosis in systemic lupus erythematosus

In vitro and in vivo Characterization of Host–Pathogen Interactions of the L3881 Candida albicans Clinical Isolate

RFX transcription factor in the human‐associated yeast Candida albicans regulates adhesion to oral epithelium

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