Y. Li scite author profile

Antibacterial adhesives have favorable prospects to inhibit biofilms and secondary caries. The objectives of this study were to investigate the antibacterial effect of dental adhesives containing dimethylaminododecyl methacrylate (DMADDM) on different bacteria in controlled multispecies biofilms and its regulating effect on development of biofilm for the first time. Antibacterial material was synthesized, and Streptococcus mutans, Streptococcus gordonii, and Streptococcus sanguinis were chosen to form multispecies biofilms. Lactic acid assay and pH measurement were conducted to study the acid production of controlled multispecies biofilms. Anthrone method and exopolysaccharide (EPS):bacteria volume ratio measured by confocal laser scanning microscopy were performed to determine the EPS production of biofilms. The colony-forming unit counts, scanning electron microscope imaging, and dead:live volume ratio decided by confocal laser scanning microscopy were used to study the biomass change of controlled multispecies biofilms. The TaqMan real-time polymerase chain reaction and fluorescent in situ hybridization imaging were used to study the proportion change in multispecies biofilms of different groups. The results showed that DMADDM-containing adhesive groups slowed the pH drop and decreased the lactic acid production noticeably, especially lactic acid production in the 5% DMADDM group, which decreased 10- to 30-fold compared with control group (P < 0.05). EPS was reduced significantly in 5% DMADDM group (P < 0.05). The DMADDM groups reduced the colony-forming unit counts significantly (P < 0.05) and had higher dead:live volume ratio in biofilms compared with control group (P < 0.05). The proportion of S. mutans decreased steadily in DMADDM-containing groups and continually increased in control group, and the biofilm had a more healthy development tendency after the regulation of DMADDM. In conclusion, the adhesives containing DMADDM had remarkable antimicrobial properties to serve as "bioactive" adhesive materials and revealed its potential value for antibiofilm and anticaries clinical applications.

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Combinatorial Effects of Arginine and Fluoride on Oral Bacteria

Zheng

et al. 2014

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Dental caries is closely associated with the microbial disequilibrium between acidogenic/aciduric pathogens and alkali-generating commensal residents within the dental plaque. Fluoride is a widely used anticaries agent, which promotes tooth hard-tissue remineralization and suppresses bacterial activities. Recent clinical trials have shown that oral hygiene products containing both fluoride and arginine possess a greater anticaries effect compared with those containing fluoride alone, indicating synergy between fluoride and arginine in caries management. Here, we hypothesize that arginine may augment the ecological benefit of fluoride by enriching alkali-generating bacteria in the plaque biofilm and thus synergizes with fluoride in controlling dental caries. Specifically, we assessed the combinatory effects of NaF/arginine on planktonic and biofilm cultures of Streptococcus mutans, Streptococcus sanguinis, and Porphyromonas gingivalis with checkerboard microdilution assays. The optimal NaF/arginine combinations were selected, and their combinatory effects on microbial composition were further examined in single-, dual-, and 3-species biofilm using bacterial species-specific fluorescence in situ hybridization and quantitative polymerase chain reaction. We found that arginine synergized with fluoride in suppressing acidogenic S. mutans in both planktonic and biofilm cultures. In addition, the NaF/arginine combination synergistically reduced S. mutans but enriched S. sanguinis within the multispecies biofilms. More importantly, the optimal combination of NaF/arginine maintained a "streptococcal pressure" against the potential growth of oral anaerobe P. gingivalis within the alkalized biofilm. Taken together, we conclude that the combinatory application of fluoride and arginine has a potential synergistic effect in maintaining a healthy oral microbial equilibrium and thus represents a promising ecological approach to caries management.

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Expression of Osteoclastogenesis Inducers in a Tissue Model of Periodontal Ligament under Compression

Zheng

Liu³

et al. 2010

J Dent Res

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Involvement of gshAB in the Interspecies Competition within Oral Biofilm

et al. 2013

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Although Streptococcus sanguinis has been reported to produce H2O2 to gain a competitive edge over Streptococcus mutans, the molecular mechanisms evolved by S. mutans to counter this "peer stress" are still to be identified. The current study was designed to investigate the ecological role of glutathione synthetase (gshAB) in the interspecies interaction between S. mutans and S. sanguinis. A gshAB in-frame deletion strain of S. mutans was constructed, and its phenotypic traits were characterized. The spatio-temporal interaction of the gshAB mutant with S. sanguinis was further investigated in a dual-species biofilm model by fluorescence in situ hybridization. We found that, although less tolerant for H2O2, the gshAB mutant produced more extracellular polysaccharides by up-regulating gtfs expression, so as to cluster as condensed microcolonies. In addition, the mutant was more susceptible to the conditioned medium of S. sanguinis, and its competitiveness was significantly compromised. Taken together, we believe that gshAB is essential for the competitiveness and prevalence of S. mutans through detoxifying the H2O2 produced by S. sanguinis. Given the ecological importance of bacterial equilibrium within the oral biofilm, gshAB may represent a promising target to modulate the S. mutans/S. sanguinis ratio under cariogenic conditions, thus contributing to the management of dental caries.

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Y. Li

Effect of Antibacterial Dental Adhesive on Multispecies Biofilms Formation

Combinatorial Effects of Arginine and Fluoride on Oral Bacteria

Expression of Osteoclastogenesis Inducers in a Tissue Model of Periodontal Ligament under Compression

Involvement of gshAB in the Interspecies Competition within Oral Biofilm

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