Candida albicans and NCAC species: acidogenic and fluoride-resistant oral inhabitants

Candida albicans and NCAC species: acidogenic and fluoride-resistant oral inhabitants

Objective Although Candida species are thought to contribute to dental caries, their acid production under anaerobic conditions and susceptibility to fluoride have not been thoroughly studied. We therefore investigated the growth, acid production, and effect of fluoride on Candida species.Methods Ae...

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Main Authors: Haneen Raafat Fathi Mousa, Yuki Abiko, Jumpei Washio, Satoko Sato, Nobuhiro Takahashi
Format: Article
Language:English
Published: Taylor & Francis Group 2025-12-01
Series:Journal of Oral Microbiology
Subjects:
Acid production
Candida species
candidal growth
dental caries
enolase
fluoride
Online Access:https://www.tandfonline.com/doi/10.1080/20002297.2025.2473938
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Summary:Objective Although Candida species are thought to contribute to dental caries, their acid production under anaerobic conditions and susceptibility to fluoride have not been thoroughly studied. We therefore investigated the growth, acid production, and effect of fluoride on Candida species.Methods Aerobic growth, acid production from glucose and its end-products under aerobic and anaerobic conditions, and enolase activity were measured in C. albicans and non-Candida-albicans-Candida (NCAC) species (C. tropicalis, C. parapsilosis, C. maltosa, and C. glabrata), and the effect of fluoride on these abilities was evaluated.Results All Candida species produced acids under aerobic and anaerobic conditions, and acetate and TCA cycle metabolites were detected. However, these organic acids only accounted for 1.9–57.6% of the acids produced. Up to 80 mM fluoride hardly inhibited growth and did not inhibit acid production except for C. glabrata, despite the low 50% inhibitory fluoride concentration of 0.19–0.34 mM for enolase.Conclusion Candida species produced acids under aerobic and anaerobic conditions, indicating their significant cariogenicity. Their growth and acid production were highly fluoride-resistant, whereas their enolase was fluoride-sensitive, suggesting mechanisms for maintaining low intracellular fluoride. The mechanisms underlying the fluoride resistance remain underexplored. Approaches other than fluoride may be needed to control Candida-associated caries.
ISSN:2000-2297

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