Salivary nitrate-nitrite conversion capacity after nitrate ingestion and incidence of &lt;i&gt;Veillonella&lt;/i&gt; spp. in elderly individuals

Mitsui, Takahiro; Saito, M.; Harasawa, Ryô

doi:10.2334/josnusd.17-0337

Cited by 11 publications

(10 citation statements)

References 21 publications

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“…Veillonella , Actinomyces , Rothia , and Staphylococcus have been identified as the predominant NO 2 − -producing bacteria in the oral cavity 12 . In addition, these genera were also detected in the saliva of adults and newborns 13 , and the frequency of Veillonella was associated with NO 2 − -producing activity in saliva 14 . However, no previous study has examined the NO 2 − -producing activity of the oral biofilm per unit wet weight, or interindividual differences in the composition of NO 2 − -producing bacterial populations at the bacterial species level.…”

Section: Introductionmentioning

confidence: 97%

Nitrite-producing oral microbiome in adults and children

Sato-Suzuki

Washio

Wicaksono

et al. 2020

Sci Rep

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Recently, it was suggested that the nitrite (NO2−) produced from NO3− by oral bacteria might contribute to oral and general health. Therefore, we aimed to clarify the detailed information about the bacterial NO2-production in the oral biofilm. Dental plaque and tongue-coating samples were collected, then the NO2-producing activity was measured. Furthermore, the composition of the NO2−-producing bacterial population were identified using the Griess reagent-containing agar overlay method and molecular biological method. NO2−-producing activity per mg wet weight varied among individuals but was higher in dental plaque. Additionally, anaerobic bacteria exhibited higher numbers of NO2−-producing bacteria, except in the adults’ dental plaque. The proportion of NO2−-producing bacteria also varied among individuals, but a positive correlation was found between NO2−-producing activity and the number of NO2−-producing bacteria, especially in dental plaque. Overall, the major NO2−-producing bacteria were identified as Actinomyces, Schaalia, Veillonella and Neisseria. Furthermore, Rothia was specifically detected in the tongue coatings of children. These results suggest that dental plaque has higher NO2−-producing activity and that this activity depends not on the presence of specific bacteria or the bacterial compositions, but on the number of NO2−-producing bacteria, although interindividual differences were detected.

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Section: Introductionmentioning

confidence: 97%

Nitrite-producing oral microbiome in adults and children

Sato-Suzuki

Washio

Wicaksono

et al. 2020

Sci Rep

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“…V. atypica is commonly isolated from the oral cavity and has been studied extensively at this anatomical site [18][19][20][21][22] . In the oral microbiome, V. atypica is considered a 'bridging species' that enables the colonization of middle and late colonizers to the oral plaque biofilm, with the aid of initial colonizing species, therefore V. atypica promotes oral biofilm development [23][24][25] .…”

Section: Introductionmentioning

confidence: 99%

Veillonellaceae family members uniquely alter the cervical metabolic microenvironment in a human three-dimensional epithelial model

Salliss

Maarsingh

Garza

et al. 2021

npj Biofilms Microbiomes

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Bacterial vaginosis (BV) is a gynecologic disorder characterized by a shift in cervicovaginal microbiota from Lactobacillus spp. dominance to a polymicrobial biofilm composed of diverse anaerobes. We utilized a well-characterized human three-dimensional cervical epithelial cell model in conjunction with untargeted metabolomics and immunoproteomics analyses to determine the immunometabolic contribution of three members of the Veillonellaceae family: Veillonella atypica, Veillonella montpellierensis and Megasphaera micronuciformis at this site. We found that Veillonella spp. infections induced significant elevation of polyamines. M. micronuciformis infections significantly increased soluble inflammatory mediators, induced moderate levels of cell cytotoxicity, and accumulation of cell membrane lipids relative to Veillonella spp. Notably, both V. atypica and V. montpellierensis infections resulted in consumption of lactate, a key metabolite linked to gynecologic and reproductive health. Collectively our approach and data provide unique insights into the specific contributions of Veillonellaceae members to the pathogenesis of BV and women’s health.

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“…Boss et al [4] observed large variation between subjects in salivary nitrate/nitrite concentrations after nitrate loading, and concluded that it was possible to discriminate between subjects with consistently high or low nitrite conversion rates. We recently reported that the correlation coefficients between two measurements of Δ nitrate and Δ nitrite after nitrate ingestion in the same individual, separated by a 7-day interval, were 0.637 and 0.583, respectively (n = 24, p < 0.01) [6]. The inter-individual Fig.…”

Section: Discussionmentioning

confidence: 85%

“…To confirm the DNA band of each primer, PCR agarose gel procedures were performed for all participants. The details of these procedures have been previously described [6].…”

Section: Bacterial Strain Culture Conditions and Specific Primersmentioning

confidence: 99%