Symbiotic relationship between Prevotella denticola and Streptococcus mutans enhances virulence of plaque biofilms

This study aimed to explore that whether interactions between Prevotella denticola and Streptococcus mutans could promote the establishment of hypervirulent biofilms on teeth surface and eventually influence the occurrence and development of caries. Based on single-species biofilms of either P. dent...

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Published in:Archives of oral biology 2023-07, Vol.151, p.105714-105714, Article 105714
Main Authors: Niu, Yufen, Zhang, Chunyan, Sun, Yanfei, Dong, Lei, Si, Yuan, Yang, Jiazhen, Zhu, Pengfei, Yang, Fang
Format: Article
Language:English
Subjects:
Biofilms
Dental caries
Dental Caries - microbiology
Dental Plaque - microbiology
Dual-species biofilms
Early childhood caries
Humans
Plaque
Prevotella denticola
Streptococcus mutans
Virulence
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Summary:This study aimed to explore that whether interactions between Prevotella denticola and Streptococcus mutans could promote the establishment of hypervirulent biofilms on teeth surface and eventually influence the occurrence and development of caries. Based on single-species biofilms of either P. denticola or S. mutans, and dual-species biofilms of both bacteria, we compared the virulence properties associated with cariogenicity in vitro, including carbohydrate metabolism and acid productivity, synthesis of extracellular polysaccharides, biomass and architecture of biofilms, level of enamel demineralization and expression of virulence genes associated with carbohydrate metabolism and adhesion in S. mutans. The data demonstrated that, compared to single-species of above two taxa, dual-species produced lactate by metabolizing carbohydrates at a higher level during the observation period. Moreover, dual-species biofilms accrued more biomass and exhibited more dense microcolonies and abundant extracellular matrix. And it’s noticeable that the level of enamel demineralization in dual-species biofilms was more augmented than that of single-species. In addition, the presence of P. denticola induced the expression of virulence genes gtfs and gbpB in S. mutans. Symbiotic relationship between P. denticola and S. mutans enhances caries-associated virulence of plaque biofilms, which might provide new strategies for effective prevention and treatment of caries. ●Prevotella denticola could produce acid by metabolizing carbohydrates and had the ability to form biofilms in vitro.●Compared to Prevotella denticola or Streptococcus mutans single-species biofilms, dual-species biofilms accrued more biomass and exhibited more microcolonies and abundant extracellular matrix.●The presence of Prevotella denticola induced the expression of virulence genes associated with cariogenicity in Streptococcus mutans.
ISSN:0003-9969
1879-1506
DOI:10.1016/j.archoralbio.2023.105714