Abstract
ObjectivesTo assess the effects of benzydamine and mouthwashes (MoWs) containing benzydamine on different stages of Candida albicans biofilm: adhesion, formation, persistence, and regrowth (if perturbed).Materials and methodsC. albicans CA1398, carrying the bioluminescence ACT1p-gLUC59 fusion product, was employed. Fungal cells were exposed for 1′, 5′, or 15′ to 4 different benzydamine concentrations (0.075 to 0.6%) to 2 mouthwashes (MoWs) containing benzydamine and to a placebo MoW (without benzydamine). Treated cells were tested for adhesion (90 min) and biofilm formation (24-h assay). Next, 24- and 48-h-old biofilms were exposed to benzydamine and MoWs to assess regrowth and persistence, respectively. The effects of benzydamine, MoWs containing benzydamine, and placebo on different biofilm stages were quantified by bioluminescence assay and by the production of quorum sensing (QS) molecules.ResultsBenzydamine and MoWs containing benzydamine impaired C. albicans ability to adhere and form biofilm, counteracted C. albicans persistence and regrowth, and impaired a 48-h-old biofilm. Some of these effects paralleled with alterations in QS molecule secretion.ConclusionsOur results show for the first time that benzydamine and MoWs containing benzydamine impair C. albicans capacity to form biofilm and counteract biofilm persistence and regrowth.Clinical relevanceBenzydamine and MoWs containing benzydamine capacity to affect C. albicans biofilm provides an interesting tool to prevent and treat oral candidiasis. Likely, restraining C. albicans colonization through daily oral hygiene may counteract colonization and persistence by other critical oral pathogens, such as Streptococcus mutans, whose increased virulence has been linked to the presence of C. albicans biofilm.
Highlights
Candida albicans (C. albicans) often colonizes the oral cavity of healthy subjects, where it appears in its yeast form
As a matter of fact, we have recently demonstrated, by means of in vitro models, that both C. albicans hyphal development and biofilm formation and persistence can be affected by several mouthwashes, especially by those containing chlorhexidine digluconate, cetylpyridinium chloride, and essential oils in their formulations [9, 25]
In the light of this scenario, here we evaluated the antifungal activity of benzydamine and MoWs containing benzydamine against C. albicans, by analyzing all the stages leading to biofilm formation and persistence
Summary
Candida albicans (C. albicans) often colonizes the oral cavity of healthy subjects, where it appears in its yeast form. Clinical Oral Investigations as hyphal wall protein 1 (Hwp1), agglutinin-like sequence 3 (Als3), secreted aspartic proteases 4, 5, and 6 (Sap , and 6), and the hyphae-associated proteins extent of cell elongation protein 1 (Ece1) and hyphal regulated cell wall protein 1 (Hyr1) [6] Since most of such molecules are adhesins, their interaction with cell surface receptors grants the fungus the capacity to bind efficiently to oral mucosal epithelia as well as teeth surface [7, 8]. Such fungal adhesion, promoted by hyphae formation, facilitates in turn biofilm establishment. Biofilm in particular shelters the fungal cells from the action of immune-mediated defenses [10], antifungal drugs, and disinfectants [11,12,13,14]
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