The quorum‐sensing molecule E,E‐farnesol—its variable secretion and its impact on the growth and metabolism of Candida species

Weber, Kai; Schulz, Bettina; Ruhnke, Markus

doi:10.1002/yea.1769

Cited by 71 publications

(56 citation statements)

References 43 publications

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“…In an experimental protocol that induce hyphae formation through the presence of BSA in the culture medium, we showed that farnesol reduced, up to 10-fold, the Candida transition from yeast to hyphal forms. These data are in accordance with previously reported studies [36] showing that farnesol (which acts in an autocrine manner on Candida ) blocks the morphological shift of Candida from yeast to hyphae at high cell densities [37, 38]. This was confirmed by in vitro studies showing that exogenously-added farnesol inhibited germ tube formation [39-41] normally triggered by serum [32], proline and N -acetylglucosamine [24].…”

Section: Discussionsupporting

confidence: 92%

Farnesol, a Fungal Quorum-Sensing Molecule Triggers Candida Albicans Morphological Changes by Downregulating the Expression of Different Secreted Aspartyl Proteinase Genes

Décanis

Tazi²,

Correia³

et al. 2011

TOMICROJ

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The aim of this study was to determine the effect of exogenous farnesol in yeast-to-hyphae morphogenesis, and Saps (2, 4, 5 and 6) mRNA expressions by a Candida strain that does not produce endogenous farnesol. C. albicans was cultured in the absence and presence of farnesol at various concentrations (10, 100, and 300 µM), in proteinase induction medium, and then used to determine yeast-to- hyphae changes, Candida ultrastructure and to determine Saps 2, 4, 5 and 6 expressions using q-TR-PCR and ELISA (for Sap2). Data demonstrated that farnesol greatly reduced the yeast-to-hyphae morphogenesis of a Candida strain that does not produce endogenous farnesol. Farnesol induced several ultrastructural alterations, including changes in the cell-wall shape, a visible disconnection between the cell wall and cytoplasm with an electron-lucent zone between them, and the presence of electron-dense vacuoles. Tested on gene expressions, farnesol was able to significantly (p < 0.01) decrease Sap2 secretion and mRNA expression. Farnesol downregulated also Sap4-6 mRNA expression. These results demonstrated for the first time that farnesol modules Candida morphogenesis through a downregulation of Saps 2, 4, 5 and 6 expressions. Overall these data point to the potential use of farnesol as an antifungal molecule

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Section: Discussionsupporting

confidence: 92%

Farnesol, a Fungal Quorum-Sensing Molecule Triggers Candida Albicans Morphological Changes by Downregulating the Expression of Different Secreted Aspartyl Proteinase Genes

Décanis

Tazi²,

Correia³

et al. 2011

TOMICROJ

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“…1). The C. albicans cell can reduce its metabolic activity as a protective mechanism under adverse conditions [22], [23]. Therefore, we studied the effects of S-8 on morphology and viability of the biofilm cells.…”

Section: Resultsmentioning

confidence: 99%

Therapeutic Potential of Thiazolidinedione-8 as an Antibiofilm Agent against Candida albicans

et al. 2014

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Candida albicans is known as a commensal microorganism but it is also the most common fungal pathogen in humans, causing both mucosal and systemic infections. Biofilm-associated C. albicans infections present clinically important features due to their high levels of resistance to traditional antifungal agents. Quorum sensing is closely associated with biofilm formation and increasing fungal pathogenicity. We investigated the ability of the novel bacterial quorum sensing quencher thiazolidinedione-8 (S-8) to inhibit the formation of, and eradication of mature C. albicans biofilms. In addition, the capability of S-8 to alter fungal adhesion to mammalian cells was checked. S-8 exhibited specific antibiofilm and antiadhesion activities against C. albicans, at four- to eightfold lower concentrations than the minimum inhibitory concentration (MIC). Using fluorescence microscopy, we observed that S-8 dose-dependently reduces C. albicans–GFP binding to RAW macrophages. S-8 at sub-MICs also interfered with fungal morphogenesis by inhibiting the yeast-to-hyphal form transition. In addition, the tested agent strongly affected fungal cell wall characteristics by modulating its hydrophobicity. We evaluated the molecular mode of S-8 antibiofilm and antiadhesion activities using real-time RT-PCR. The expression levels of genes associated with biofilm formation, adhesion and filamentation, HWP1, ALS3 and EAP1, respectively, were dose-dependently downregulated by S-8. Transcript levels of UME6, responsible for long-term hyphal maintenance, were also significantly decreased by the tested agent. Both signaling pathways of hyphal formation-cAMP-PKA and MAPK-were interrupted by S-8. Their upstream general regulator RAS1 was markedly suppressed by S-8. In addition, the expression levels of MAPK cascade components CST20, HST7 and CPH1 were downregulated by S-8. Finally, transcriptional repressors of filament formation, TUP1 and NRG1, were dramatically upregulated by our compound. Our results indicate that S-8 holds a novel antibiofilm therapeutic mean in the treatment and prevention of biofilm-associated C. albicans infections.

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“…Within the Candida clade, C. albicans produces the highest amounts of farnesol, with levels reaching up to 55 mM in dense C. albicans cultures (Weber, Schulz, & Ruhnke, 2010;Weber, Sohr, Schulz, Fleischhacker, & Ruhnke, 2008). Farnesol has several effects on C. albicans.…”

Section: The Quorum Sensing Molecule Farnesol and Cellular Signalingmentioning

confidence: 99%

Candida Survival Strategies

Polke

Hube

Jacobsen

2015

Advances in Applied Microbiology

149

101

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The quorum‐sensing molecule E,E‐farnesol—its variable secretion and its impact on the growth and metabolism of Candida species

Cited by 71 publications

References 43 publications

Farnesol, a Fungal Quorum-Sensing Molecule Triggers Candida Albicans Morphological Changes by Downregulating the Expression of Different Secreted Aspartyl Proteinase Genes

Farnesol, a Fungal Quorum-Sensing Molecule Triggers Candida Albicans Morphological Changes by Downregulating the Expression of Different Secreted Aspartyl Proteinase Genes

Therapeutic Potential of Thiazolidinedione-8 as an Antibiofilm Agent against Candida albicans

Candida Survival Strategies

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