Staphylococcus aureus Synergized with Candida albicans to Increase the Pathogenesis and Drug Resistance in Cutaneous Abscess and Peritonitis Murine Models

Hu, Yanyan; Niu, Yulong; Ye, Xingchen; Zhu, Chengguang; Tong, Ting; Zhou, Yujie; Zhou, Xuedong; Cheng, Lei; Ren, Biao

doi:10.3390/pathogens10081036

Cited by 32 publications

(20 citation statements)

References 67 publications

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“…Our embryo infection result suggested C. albicans cobiofilm protects S. aureus against antimicrobials, and the major toxin genes of S. aureus are significantly upregulated, including hla and hlgB, resulting in high mortality for C. albicans SC5314-infected embryos. An upregulation of virulence factors in S. aureus, including hla, hlgB, enterotoxin family protein, staphylocoagulase, staphylococcal protein A, nucleases, intercellular adhesion proteins, fibronectin-binding proteins, drug-resistant genes glmU, murC, and murD, and penicillin-binding proteins, was demonstrated by Hu et al using cutaneous abscess and peritonitis murine models [25]. The increase in toxin production, especially exterotoxins, damages tissues and induces severe inflammation, which can cause multi-organ failure.…”

Section: Discussionmentioning

confidence: 95%

“…S. aureus toxin genes were augmented by C. albicans in murine infection models, including hla (alpha hemolysin) and hlgB (gamma hemolysin) [25]. If S. aureus formed cobiofilms with C. albicans on a filter membrane after 24-h maturation, there was a significant increase in expression of hla (7.06 ± 2.19 fold increase) and hlgB (8.12 ± 2.64 fold increase) in SC5314 group but not in hyphae-defective HLC54 group (hla: 1.54 ± 0.30 and hlgB: 2.09 ± 0.81) (Figure 5).…”

Section: Changes In S Aureus Toxin Genes In a Co-biofilmmentioning

confidence: 99%

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Enhanced Virulence of Candida albicans by Staphylococcus aureus: Evidence in Clinical Bloodstream Infections and Infected Zebrafish Embryos

Huang

Cheng

et al. 2021

JoF

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Coinfection with Candida and Staphylococcus results in higher mortality in animal studies. However, the pathogenesis and interplay between C. albicans and S. aureus in bloodstream infections (BSIs) is unclear. This study determines the clinical features and outcomes of mixed C. albicans/S. aureus (CA/SA) BSIs and biofilm formation on pathogenesis during coinfection. Demographics and outcomes for mixed BSIs and monomicrobial candidemia were compared. Compared to 115 monomicrobial C. albicans BSIs, 22 patients with mixed CA/SA BSIs exhibited a significantly higher mortality rate and shorter survival time. In vitro and in vivo biofilm analysis showed that C. albicans accounted for the main biofilm architecture, and S. aureus increased its amount. Antibiotic tolerance in S. aureus, which adhered to Candida hyphae observed by scanning electron microscope, was demonstrated by the presence of wild-type C. albicans co-biofilm. Upregulation in exotoxin genes of S. aureus was evidenced by quantitative RT-PCR when a co-biofilm was formed with C. albicans. Mixed CA/SA BSIs result in a higher mortality rate in patients and in vivo surrogate models experiments. This study demonstrates that the virulence enhancement of C. albicans and S. aureus during co-biofilm formation contributes to the high mortality rate.

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Section: Discussionmentioning

confidence: 95%

Section: Changes In S Aureus Toxin Genes In a Co-biofilmmentioning

confidence: 99%

Enhanced Virulence of Candida albicans by Staphylococcus aureus: Evidence in Clinical Bloodstream Infections and Infected Zebrafish Embryos

Huang

Cheng

et al. 2021

JoF

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“… Streptococcus gordonii could also promote C. albicans biofilm formation and hyphal development ( 17 ). C. albicans and Staphylococcus aureus synergistically interacted to promote pathogenic potential, increase resistance to antibiotics and help Candida circumvent the host immune system ( 27 , 28 ). However, the key pathways by which C. albicans regulates its interactions with oral bacteria are still unclear.…”

Section: Introductionmentioning

confidence: 99%

The Arginine Biosynthesis Pathway of Candida albicans Regulates Its Cross-Kingdom Interaction with Actinomyces viscosus to Promote Root Caries

Xiong

Hua

et al. 2022

Microbiol Spectr

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Root caries is a critical problem that threatens the oral health of the elderly population. Our results identified the essential roles of the C. albicans arginine biosynthesis pathway in its cross-kingdom interactions with A. viscosus in root caries for the first time and indicated that targeting this pathway was a practical way to treat root caries caused by multiple species.

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“…Most mutualistic interactions have been observed in the oral and vaginal environments between C. albicans and various Streptococcus species in mixed biofilms 61,[193][194][195] . Bacteria and fungi co-occur in mixed biofilms providing extra protection against host immune responses compared to monoculture biofilms [195][196][197][198][199] . On the one hand, bacteria are protected by a fungal polysaccharide matrix and become more resistant to antibacterial compounds [195][196][197]200 .…”

Section: Interkingdom Interactions In the Intestinementioning

confidence: 99%

“…Archaea and viruses additionally need to be accounted for to obtain a holistic ecological perspective of the human intestine. Researching such interkingdom interactions in the (infant) intestine would be especially relevant in a clinical setting, as bacteria and fungi may interact synergistically in mixed biofilms to increase antimicrobial recalcitrance and protection against host immune responses [195][196][197][198][199] . Subsequent formation of mixed biofilms on indwelling medical devices-such as nasogastric enteral feeding tubes-could become a reservoir of microbes and antibiotic resistance genes that are introduced into the preterm gastrointestinal tract upon feeding, thereby forming a risk of microbial dysbiosis and infections [463][464][465] .…”

Section: Challenges and Opportunitiesmentioning

confidence: 99%

The immature gut : Microbes and nutrition orchestrate maturation of the preterm gastrointestinal tract

Henderickx¹

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Competitive interactions between bacteria and fungi are mainly described from the bacterial perspective. The negative effect of bacteria on fungi is most evident in fungal overgrowth after antibiotic treatment. Both in murine models and in humans, antibiotic treatment has been shown to support Candida spp. colonization and fungal overgrowth 185,207,208 . Intestinal bacteria have a diverse repertoire of molecules capable of disturbing fungal growth and differentiation 61 . Bacteria can reduce virulence factors of C. albicans by affecting their filamentation, adherence and biofilm formation [209][210][211][212] . Reduction of virulence factors of C. albicans may in turn lead to reduced protection of filamentous bacteria in mixed biofilms 61 . Future research should shed light on deleterious effects of fungi on bacteria, as these are currently understudied. As mentioned before, bacteria outnumber fungi substantially in the intestine. For this reason, future studies additionally need to account for the absolute abundance of bacteria and fungi in these interkingdom interactions.

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Staphylococcus aureus Synergized with Candida albicans to Increase the Pathogenesis and Drug Resistance in Cutaneous Abscess and Peritonitis Murine Models

Cited by 32 publications

References 67 publications

Enhanced Virulence of Candida albicans by Staphylococcus aureus: Evidence in Clinical Bloodstream Infections and Infected Zebrafish Embryos

Enhanced Virulence of Candida albicans by Staphylococcus aureus: Evidence in Clinical Bloodstream Infections and Infected Zebrafish Embryos

The Arginine Biosynthesis Pathway of Candida albicans Regulates Its Cross-Kingdom Interaction with Actinomyces viscosus to Promote Root Caries

The immature gut : Microbes and nutrition orchestrate maturation of the preterm gastrointestinal tract

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