Abstract
In Indonesia dental caries is one of the most important issues in children’s health. Caries is one of common dental diseases in children who consume sugar-rich diets. Caries cause decalcification of tooth enamel and dentin. The bacteria involved in caries can converge on the dental pulp tissue and spread to other organs. Under adverse conditions, complications such as phylogenetic osteomyelitis and bacterial endocarditis can occur. This study aimed to investigate the effects of oral cavity pH on neutrophil and lymphocyte cell activity in order to eliminate S. mutans. Neutrophil and lymphocyte cells were isolated from the saliva of 30 preschool children, with and without caries, from the city of Surabaya, Indonesia. The dental condition was verified by a dentist based on the def-t index. Obtained results indicate that the number of activated neutrophils (CD11b+CD35+) from children in the caries group was significantly higher than the caries-free group at an acidic pH, but was unchanged at an alkaline pH. The activated neutrophils triggered naive T cells to become effector T cells (CD4+), which produce cytokines to respond the infection. However, the increased CD11b+CD35+ were unable to enhance the phagocytic activity of neutrophils in the caries group, especially in acidic pH conditions. An acidic pH was found to repress the phagocytic capacity of neutrophils. This study provides a basis for future strategies to prevent dental caries by promoting phagocytic activity and maintaining a neutral pH in the oral cavity.
Highlights
Dental caries results from tooth decay due to the activity of pathogenic microbes in the oral cavity, and most cases occur in children aged between 4–6 years
This study aimed to investigate the effects of oral cavity pH on neutrophil and lymphocyte cell activity in order to eliminate S. mutans
This study showed that the phagocytosis ability of neutrophils (CFSE+CD89+) in children with dental caries was significantly lower than in children without caries (Fig. 1)
Summary
Dental caries results from tooth decay due to the activity of pathogenic microbes in the oral cavity, and most cases occur in children aged between 4–6 years. Streptococcus mutans is the primary microorganism that causes dental caries (Fekrazad et al, 2017; Peterson et al, 2013; Jiang et al, 2017). S. mutans triggers an adaptive immune response including CD4+ and CD8+ T lymphocytes (Hurlbutt et al, 2010). The adaptive immune response begins when dendritic or neutrophil cells present S. mutans-derived peptide fragments to naïve T cells, which are activated to become effector T cells (CD4+ or CD8+). As the homeostasis of immune cells depends on pH, an acidic environment in the oral cavity may inhibit the ability of neutrophil and lymphocyte cells to eliminate S. mutans. The aim of this study was to investigate the role of oral cavity pH on the phagocytic capacity of neutrophils and the activation of T cells, and their ability to eliminate S. mutans
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