Staphylococcus aureus adherence to Candida albicans hyphae is mediated by the hyphal adhesin Als3p

Peters, Brian M.; Ovchinnikova, Ekaterina S.; Krom, Bastiaan P.; Schlecht, Lisa Marie; Zhou, Han; Hoyer, Lois L.; Busscher, Henk J.; Mei, Henny C. van der; Jabra‐Rizk, Mary Ann; Shirtliff, Mark E.

doi:10.1099/mic.0.062109-0

Cited by 195 publications

(205 citation statements)

References 44 publications

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“…Although C. albicans is commonly encountered as a commensal in healthy individuals, this opportunistic pathogen is capable of invading virtually any site of the human host, from superficial sites to deep tissues and organs. C. albicans and S. aureus are frequent colonizers of human mucosal surfaces; using confocal fluorescent and atomic force microscopy, our previous in vitro studies revealed a unique mixed biofilm architecture wherein S. aureus associated closely with the hyphae (34,52). However, in order to investigate the clinical implications of this interaction during cocolonization of host mucosal tissue, a suitable animal model is needed.…”

Section: Discussionmentioning

confidence: 99%

“…Our in vitro studies have demonstrated that S. aureus exhibits high affinity to the C. albicans hyphae as these species coexist in biofilm and identified the C. albicans hyphal specific adhesin Als3p to be involved in the coadherence process (34,35). Further, our previous in vivo studies have indicated that the interaction of these species may carry important clinical implications (36,37).…”

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confidence: 99%

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Clinical Implications of Oral Candidiasis: Host Tissue Damage and Disseminated Bacterial Disease

et al. 2015

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fThe clinical significance of polymicrobial interactions, particularly those between commensal species with high pathogenic potential, remains largely understudied. Although the dimorphic fungal species Candida albicans and the bacterium Staphylococcus aureus are common cocolonizers of humans, they are considered leading opportunistic pathogens. Oral candidiasis specifically, characterized by hyphal invasion of oral mucosal tissue, is the most common opportunistic infection in HIV ؉ and immunocompromised individuals. In this study, building on our previous findings, a mouse model was developed to investigate whether the onset of oral candidiasis predisposes the host to secondary staphylococcal infection. The findings demonstrated that in mice with oral candidiasis, subsequent exposure to S. aureus resulted in systemic bacterial infection with high morbidity and mortality. Histopathology and scanning electron microscopy of tongue tissue from moribund animals revealed massive C. albicans hyphal invasion coupled with S. aureus deep tissue infiltration. The crucial role of hyphae in the process was demonstrated using a non-hypha-producing and a noninvasive hypha-producing mutant strains of C. albicans. Further, in contrast to previous findings, S. aureus dissemination was aided but not contingent upon the presence of the Als3p hypha-specific adhesion. Importantly, impeding development of mucosal C. albicans infection by administering antifungal fluconazole therapy protected the animals from systemic bacterial disease. The combined findings from this study demonstrate that oral candidiasis may constitute a risk factor for disseminated bacterial disease warranting awareness in terms of therapeutic management of immunocompromised individuals.

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Section: Discussionmentioning

confidence: 99%

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Clinical Implications of Oral Candidiasis: Host Tissue Damage and Disseminated Bacterial Disease

et al. 2015

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“…Genetic manipulation of this adhesin has been shown to reduce bacterial binding to hyphal filaments of C. albicans, reducing the invasive capacity of this relationship [55]. The role of this phenotype has been shown in several bacterial pathogens including Staphylococcus aureus, Streptococcus gordonii, and Streptococcus agalactiae [56][57][58]. Interestingly, when the Δals3 strain was grown with S. mutans, no reduction was observed in mixed species biofilm formation, suggestive of a different mechanism of interaction [59].…”

Section: Caries: Slimy Residentsmentioning

confidence: 99%

Fungi at the Scene of the Crime: Innocent Bystanders or Accomplices in Oral Infections?

Delaney

Kean

Short

et al. 2018

Curr Clin Micro Rpt

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Purpose of Review Over the last decade, microbiome studies have enhanced our knowledge and understanding of the polymicrobial nature of oral infections. Recently, profiling of the fungal microbiome has expanded our conventional understanding of oral ecology, revealing the critical importance of yeasts within this complex microbiome. This review aims to explore our current appreciation of interkingdom interactions in oral disease. Recent Findings There is a growing evidence base of interactions and pathogenic synergy and antagonism with bacterial species within oral disease. Recent studies have helped to develop our knowledge of how Candida albicans, alongside bacteria such as Porphyromonas gingivalis, Streptococcus mutans, Staphylococcus aureus, Enterococcus faecalis, and Lactobacillus species, influence overall pathogenicity. Summary Clinical and experimental evidence makes a compelling case for a role for C. albicans in a number of oral infections, though whether its role is an active accomplice or passive bystander remains to be determined.

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“…Approximately one-fourth of all C. albicans bloodstream infections appear to be polymicrobial (33), and coinfection with C. albicans and the important bacterial pathogen S. aureus in mice is synergistic to increase mortality (36). C. albicans and S. aureus were shown to interact directly by forming a mixed biofilm (34) that depended to a considerable extent on the C. albicans Als3 cell wall protein (37). Importantly, mixed biofilm formation with C. albicans enhanced the resistance of S. aureus to vancomycin (35), which, like the more recent antibiotic daptomycin, is being used as a reserve-type antibiotic to combat multiresistant Gram-positive bacterial pathogens, including Staphylococcus, Enterococcus, and Corynebacterium species.…”

Section: Discussionmentioning

confidence: 99%

Candida albicans Mucin Msb2 Is a Broad-Range Protectant against Antimicrobial Peptides

Swidergall

Ernst

2013

Antimicrob Agents Chemother

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The human fungal pathogen Candida albicans releases a large glycofragment of the Msb2 surface protein (Msb2*) into the growth environment, which protects against the action of human antimicrobial peptides (AMPs) LL-37 and histatin-5. Quantitation of Msb2*/LL-37 interactions by microscale thermophoresis revealed high-affinity binding (dissociation constant [K D ] ‫؍‬ 73 nM), which was lost or greatly diminished by lack of O-glycosylation or by Msb2* denaturation. Msb2* also interacted with human ␣-and ␤-defensins and protected C. albicans against these AMPs. In addition, the lipopeptide antibiotic daptomycin was bound and inactivated by Msb2*, which prevented the killing of bacterial pathogens Staphylococcus aureus, Enterococcus faecalis, and Corynebacterium pseudodiphtheriticum. In coculturings or mixed biofilms of S. aureus with C. albicans wild-type but not msb2 mutant strains, the protective effects of Msb2* on the bactericidal action of daptomycin were demonstrated. These results suggest that tight binding of shed Msb2* to AMPs that occurs during bacterial coinfections with C. albicans compromises antibacterial therapy by inactivating a relevant reserve antibiotic.

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Staphylococcus aureus adherence to Candida albicans hyphae is mediated by the hyphal adhesin Als3p

Cited by 195 publications

References 44 publications

Clinical Implications of Oral Candidiasis: Host Tissue Damage and Disseminated Bacterial Disease

Clinical Implications of Oral Candidiasis: Host Tissue Damage and Disseminated Bacterial Disease

Fungi at the Scene of the Crime: Innocent Bystanders or Accomplices in Oral Infections?

Candida albicans Mucin Msb2 Is a Broad-Range Protectant against Antimicrobial Peptides

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