Combining fluoride and antimicrobial agents enhances regulation of acid and exopolysaccharide production by biofilms. The combination also weakens the acidogenic and aciduric bacteria that contribute to caries, achieving stronger caries-controlling effects with lower concentrations of fluoride. In previous studies, antimicrobial peptide GH12 has been shown to inhibit lactic acid and exopolysaccharide synthesis in various cariogenic biofilm models, and reduce the proportion of acidogenic bacteria and Keyes caries scores in a rat caries model. The current study aimed to elucidate the effect of a combination of low concentrations of sodium fluoride (NaF) and GH12 and to determine the mechanism by which GH12/NaF combination controls caries. The GH12/NaF combination contained 8 mg/L GH12 and 250 ppm NaF. A rat caries model was built, and rat dental plaque was sampled and cultivated on bovine enamel slabs in vitro and subjected to short-term treatment (5 min, 3 times/day). The caries-controlling effects were evaluated using Keyes scoring and transverse microradiography. The results showed that the GH12/NaF combination significantly decreased the onset and development of dental caries, as well as mineral content loss and lesion depth in vitro (p < 0.05). For the caries-controlling mechanisms, 16S rRNA sequencing of in vivo dental plaque revealed that populations of commensal bacteria Rothia spp. and Streptococcus parasanguinis increased in the GH12/NaF group. In contrast, Veillonella, Lactobacillus, and Streptococcus mutans decreased. Furthermore, the GH12/NaF combination significantly reduced biomass, lactic acid, and exopolysaccharides production of in vitro biofilm (p < 0.05). Overall, fluoride and GH12 efficiently arrested caries development and demineralization by regulating the microbiota and suppressing acid and exopolysaccharide production in biofilms.
Keywords: Antimicrobial cationic peptides; Demineralization; Dental plaque; Fluoride; Rat.
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