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1.
J Dent Res ; 99(7): 847-854, 2020 07.
Article in English | MEDLINE | ID: mdl-32197054

ABSTRACT

The pyruvate oxidase (SpxB)-dependent production of H2O2 is widely distributed among oral commensal streptococci. Several studies confirmed the ability of H2O2 to antagonize susceptible oral bacterial species, including caries-associated Streptococcus mutans as well as several periodontal pathobionts. Here we report a potential mechanism to bolster oral commensal streptococcal H2O2 production by magnesium (Mg2+) supplementation. Magnesium is a cofactor for SpxB catalytic activity, and supplementation increases the production of H2O2 in vitro. We demonstrate that Mg2+ affects spxB transcription and SpxB abundance in Streptococcus sanguinis and Streptococcus gordonii. The competitiveness of low-passage commensal streptococcal clinical isolates is positively influenced in antagonism assays against S. mutans. In growth conditions normally selective for S. mutans, Mg2+ supplementation is able to increase the abundance of S. sanguinis in dual-species biofilms. Using an in vivo biophotonic imaging platform, we further demonstrate that dietary Mg2+ supplementation significantly improves S. gordonii oral colonization in mice. In summary, our results support a role for Mg2+ supplementation as a potential prebiotic to promote establishment of oral health-associated commensal streptococci.


Subject(s)
Mouth , Animals , Biofilms , Hydrogen Peroxide , Magnesium , Mice , Streptococcus gordonii , Streptococcus mutans , Streptococcus sanguis
2.
Mucosal Immunol ; 10(4): 1069-1081, 2017 07.
Article in English | MEDLINE | ID: mdl-28247861

ABSTRACT

Approximately 2 billion people are infected with Mycobacterium tuberculosis (Mtb), resulting in 1.4 million deaths every year. Among Mtb-infected individuals, clinical isolates belonging to the W-Beijing lineage are increasingly prevalent, associated with drug resistance, and cause severe disease immunopathology in animal models. Therefore, it is exceedingly important to identify the immune mechanisms that mediate protection against rapidly emerging Mtb strains, such as W-Beijing lineage. IL-22 is a member of the IL-10 family of cytokines with both protective and pathological functions at mucosal surfaces. Thus far, collective data show that IL-22 deficient mice are not more susceptible to aerosolized infection with less virulent Mtb strains. Thus, in this study we addressed the functional role for the IL-22 pathway in immunity to emerging Mtb isolates, using W-Beijing lineage member, Mtb HN878 as a prototype. We show that Mtb HN878 stimulates IL-22 production in TLR2 dependent manner and IL-22 mediates protective immunity during chronic stages of Mtb HN878 infection in mice. Interestingly, IL-22-dependent pathways in both epithelial cells and macrophages mediate protective mechanisms for Mtb HN878 control. Thus, our results project a new protective role for IL-22 in emerging Mtb infections.


Subject(s)
Epithelial Cells/immunology , Interleukins/metabolism , Lung/immunology , Macrophages/immunology , Mycobacterium tuberculosis/immunology , Tuberculosis/immunology , Animals , Cells, Cultured , Chronic Disease , Drug Resistance , Humans , Immunity, Mucosal , Interleukins/genetics , Lung/microbiology , Lung/pathology , Macaca mulatta , Mice , Mice, Inbred C57BL , Mice, Knockout , Toll-Like Receptor 2/genetics , Toll-Like Receptor 2/metabolism , Interleukin-22
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