4.4 Article

Filifactor alocis enhances survival of Porphyromonas gingivalis W83 in response to H2O2-induced stress

Journal

MOLECULAR ORAL MICROBIOLOGY
Volume -, Issue -, Pages -

Publisher

WILEY
DOI: 10.1111/omi.12445

Keywords

Filifactor alocis; H2O2-induced oxidative stress; oral pathogen; periodontitis; Porphyromonas gingivalis

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This study found that Filifactor alocis can protect Porphyromonas gingivalis under oxidative stress conditions. The interaction between these two bacteria resulted in the modulation of several genes, including those involved in ABC transport and other cellular functions. These results suggest that F. alocis may stabilize the microbial community in the inflammatory microenvironment of the periodontal pocket by reducing oxidative stress.
A dysbiotic microbial community whose members have specific/synergistic functions that are modulated by environmental conditions, can disturb homeostasis in the subgingival space leading to destructive inflammation, plays a role in the progression of periodontitis. Filifactor alocis, a gram-positive, anaerobic bacterium, is a newly recognized microbe that shows a strong correlation with periodontal disease. Our previous observations suggested F. alocis to be more resistant to oxidative stress compared to Porphyromonas gingivalis. The objective of this study is to further determine if F. alocis, because of its increased resistance to oxidative stress, can affect the survival of other 'established' periodontal pathogens under environmental stress conditions typical of the periodontal pocket. Here, we have shown that via their interaction, F. alocis protects P. gingivalis W83 under H2O2-induced oxidative stress conditions. Transcriptional profiling of the interaction of F. alocis and P. gingivalis in the presence of H2O2-induced stress revealed the modulation of several genes, including those with ABC transporter and other cellular functions. The ABC transporter operon (PG0682-PG0685) of P. gingivalis was not significant to its enhanced survival when cocultured with F. alocis under H2O2-induced oxidative stress. In F. alocis, one of the most highly up-regulated operons (FA0894-FA0897) is predicted to encode a putative manganese ABC transporter, which in other bacteria can play an essential role in oxidative stress protection. Collectively, the results may indicate that F. alocis could likely stabilize the microbial community in the inflammatory microenvironment of the periodontal pocket by reducing the oxidative environment. This strategy could be vital to the survival of other pathogens, such as P. gingivalis, and its ability to adapt and persist in the periodontal pocket.

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