Human Saliva Modifies Growth, Biofilm Architecture and Competitive Behaviors of Oral Streptococci.
| Autor: | Choi A; Division of Biosciences, The Ohio State University College of Dentistry, Columbus, Ohio., Dong K; Division of Biosciences, The Ohio State University College of Dentistry, Columbus, Ohio., Williams E; Division of Biosciences, The Ohio State University College of Dentistry, Columbus, Ohio., Pia L; Division of Biosciences, The Ohio State University College of Dentistry, Columbus, Ohio., Batagower J; Division of Biosciences, The Ohio State University College of Dentistry, Columbus, Ohio., Bending P; Division of Biosciences, The Ohio State University College of Dentistry, Columbus, Ohio., Shin I; Division of Biosciences, The Ohio State University College of Dentistry, Columbus, Ohio., Peters DI; Division of Biosciences, The Ohio State University College of Dentistry, Columbus, Ohio., Kaspar JR; Division of Biosciences, The Ohio State University College of Dentistry, Columbus, Ohio. |
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| Jazyk: | angličtina |
| Zdroj: | BioRxiv : the preprint server for biology [bioRxiv] 2023 Aug 21. Date of Electronic Publication: 2023 Aug 21. |
| DOI: | 10.1101/2023.08.21.554151 |
| Abstrakt: | The bacteria within supragingival biofilms participate in complex exchanges with other microbes inhabiting the same niche. One example are the mutans group streptococci ( Streptococcus mutan s), implicated in the development of tooth decay, and other health-associated commensal streptococci species. Previously, our group transcriptomically characterized intermicrobial interactions between S. mutans and several species of oral bacteria. However, these experiments were carried out in a medium that was absent of human saliva. To better mimic their natural environment, we first evaluated how inclusion of saliva affected growth and biofilm formation of eight streptococci species individually, and found saliva to positively benefit growth rates while negatively influencing biomass accumulation and altering spatial arrangement. These results carried over during evaluation of 29 saliva-derived isolates of various species. Surprisingly, we also found that addition of saliva increased the competitive behaviors of S. mutans in coculture competitions against commensal streptococci that led to increases in biofilm microcolony volumes. Through transcriptomically characterizing mono- and cocultures of S. mutans and Streptococcus oralis with and without saliva, we determined that each species developed a nutritional niche under mixed-species growth, with S. mutans upregulating carbohydrate uptake and utilization pathways while S. oralis upregulated genome features related to peptide uptake and glycan foraging. S. mutans also upregulated genes involved in oxidative stress tolerance, particularly manganese uptake, which we could artificially manipulate by supplementing in manganese to give it an advantage over its opponent. Our report highlights observable changes in microbial behaviors via leveraging environmental- and host-supplied resources over their competitors. Competing Interests: DECLARATION OF CONFLICTING INTERESTS The authors declared no potential conflicts of interest with respect to the research, authorship, and/or publication of this article. |
| Databáze: | MEDLINE |
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