Periodontal treatment causes a longitudinal increase in nitrite‐producing bacteria

Annabel Simpson; William Johnston; Miguel Carda-Diéguez; Alex Mira; Chris Easton; Fiona L. Henriquez; Shauna Culshaw; Bob T. Rosier; Mia Burleigh

doi:10.1111/omi.12479

Periodontal treatment causes a longitudinal increase in nitrite‐producing bacteria

Annabel Simpson
, William Johnston
, Miguel Carda-Diéguez
, Alex Mira
, Chris Easton
, Fiona L. Henriquez
, Shauna Culshaw
, Bob T. Rosier
, Mia Burleigh^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

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Abstract

Background: The oral microbiome-dependent nitrate (NO₃⁻)–nitrite (NO₂⁻)–nitric oxide (NO) pathway may help regulate blood pressure. NO₂⁻-producing bacteria in subgingival plaque are reduced in relative abundance in patients with untreated periodontitis compared with periodontally healthy patients. In periodontitis patients, the NO₂⁻-producing bacteria increase several months after periodontal treatment. The early effects of periodontal treatment on NO₂⁻-producing bacteria and the NO₃⁻–NO₂⁻–NO pathway remain unknown. The aim of this study was to determine how periodontal treatment affects the oral NO₂⁻-producing microbiome and salivary NO₃⁻and NO₂⁻ levels over time.
Methods: The subgingival microbiota of 38 periodontitis patients was analysed
before (baseline [BL]) and 1, 7 and 90 days after periodontal treatment. Changes in NO₂⁻ -producing bacteria and periodontitis-associated bacteria were determined by 16s rRNA Illumina sequencing. Saliva samples were collected at all-time points to determine NO₃⁻ and NO₂⁻ levels using gas-phase chemiluminescence.
Results: A significant increase was observed in the relative abundance of NO₂⁻ -
producing species between BL and all subsequent timepoints (all p < 0.001).
Periodontitis-associated species decreased at all timepoints, relative to BL (all
p < 0.02). NO₂⁻ -producing species negatively correlated with periodontitis-associated species at all timepoints, with this relationship strongest 90 days post-treatment (ρ = −0.792, p < 0.001). Despite these findings, no significant changes were found in salivary NO₃⁻ and NO₂⁻ over time (all p > 0.05).
Conclusions: Periodontal treatment induced an immediate increase in the relative abundance of health-associated NO₂⁻ -producing bacteria. This increase persisted throughout periodontal healing. Future studies should test the effect of periodontal treatment combined with NO₃⁻ intake on periodontal and cardiovascular health.

Original language	English
Pages (from-to)	491-506
Number of pages	16
Journal	Molecular Oral Microbiology
Volume	39
Issue number	6
Early online date	22 Aug 2024
DOIs	https://doi.org/10.1111/omi.12479
Publication status	Published - 31 Dec 2024

Keywords

16s rRNA sequencing
nitrate
nitrite
oral nitrate reduction
periodontitis

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10.1111/omi.12479Licence: CC BY 4.0

2024 07 14 SImpson et al Periodontal finalFinal published version, 1.94 MBLicence: CC BY 4.0

Cite this

@article{464bd7e230cc4057942f5c0e02a009a3,

title = "Periodontal treatment causes a longitudinal increase in nitrite‐producing bacteria",

abstract = "Background: The oral microbiome-dependent nitrate (NO3−)–nitrite (NO2−)–nitric oxide (NO) pathway may help regulate blood pressure. NO2−-producing bacteria in subgingival plaque are reduced in relative abundance in patients with untreated periodontitis compared with periodontally healthy patients. In periodontitis patients, the NO2−-producing bacteria increase several months after periodontal treatment. The early effects of periodontal treatment on NO2−-producing bacteria and the NO3−–NO2−–NO pathway remain unknown. The aim of this study was to determine how periodontal treatment affects the oral NO2−-producing microbiome and salivary NO3−and NO2− levels over time. Methods: The subgingival microbiota of 38 periodontitis patients was analysed before (baseline [BL]) and 1, 7 and 90 days after periodontal treatment. Changes in NO2− -producing bacteria and periodontitis-associated bacteria were determined by 16s rRNA Illumina sequencing. Saliva samples were collected at all-time points to determine NO3− and NO2− levels using gas-phase chemiluminescence. Results: A significant increase was observed in the relative abundance of NO2− - producing species between BL and all subsequent timepoints (all p < 0.001). Periodontitis-associated species decreased at all timepoints, relative to BL (all p < 0.02). NO2− -producing species negatively correlated with periodontitis-associated species at all timepoints, with this relationship strongest 90 days post-treatment (ρ = −0.792, p < 0.001). Despite these findings, no significant changes were found in salivary NO3− and NO2− over time (all p > 0.05). Conclusions: Periodontal treatment induced an immediate increase in the relative abundance of health-associated NO2− -producing bacteria. This increase persisted throughout periodontal healing. Future studies should test the effect of periodontal treatment combined with NO3 − intake on periodontal and cardiovascular health.",

keywords = "16s rRNA sequencing, nitrate, nitrite, oral nitrate reduction, periodontitis",

author = "Annabel Simpson and William Johnston and Miguel Carda-Di{\'e}guez and Alex Mira and Chris Easton and Henriquez, \{Fiona L.\} and Shauna Culshaw and Rosier, \{Bob T.\} and Mia Burleigh",

year = "2024",

month = dec,

day = "31",

doi = "10.1111/omi.12479",

language = "English",

volume = "39",

pages = "491--506",

journal = "Molecular Oral Microbiology",

issn = "2041-1006",

publisher = "American Journal of Nursing Company",

number = "6",

}

TY - JOUR

T1 - Periodontal treatment causes a longitudinal increase in nitrite‐producing bacteria

AU - Simpson, Annabel

AU - Johnston, William

AU - Carda-Diéguez, Miguel

AU - Mira, Alex

AU - Easton, Chris

AU - Henriquez, Fiona L.

AU - Culshaw, Shauna

AU - Rosier, Bob T.

AU - Burleigh, Mia

PY - 2024/12/31

Y1 - 2024/12/31

N2 - Background: The oral microbiome-dependent nitrate (NO3−)–nitrite (NO2−)–nitric oxide (NO) pathway may help regulate blood pressure. NO2−-producing bacteria in subgingival plaque are reduced in relative abundance in patients with untreated periodontitis compared with periodontally healthy patients. In periodontitis patients, the NO2−-producing bacteria increase several months after periodontal treatment. The early effects of periodontal treatment on NO2−-producing bacteria and the NO3−–NO2−–NO pathway remain unknown. The aim of this study was to determine how periodontal treatment affects the oral NO2−-producing microbiome and salivary NO3−and NO2− levels over time. Methods: The subgingival microbiota of 38 periodontitis patients was analysed before (baseline [BL]) and 1, 7 and 90 days after periodontal treatment. Changes in NO2− -producing bacteria and periodontitis-associated bacteria were determined by 16s rRNA Illumina sequencing. Saliva samples were collected at all-time points to determine NO3− and NO2− levels using gas-phase chemiluminescence. Results: A significant increase was observed in the relative abundance of NO2− - producing species between BL and all subsequent timepoints (all p < 0.001). Periodontitis-associated species decreased at all timepoints, relative to BL (all p < 0.02). NO2− -producing species negatively correlated with periodontitis-associated species at all timepoints, with this relationship strongest 90 days post-treatment (ρ = −0.792, p < 0.001). Despite these findings, no significant changes were found in salivary NO3− and NO2− over time (all p > 0.05). Conclusions: Periodontal treatment induced an immediate increase in the relative abundance of health-associated NO2− -producing bacteria. This increase persisted throughout periodontal healing. Future studies should test the effect of periodontal treatment combined with NO3 − intake on periodontal and cardiovascular health.

AB - Background: The oral microbiome-dependent nitrate (NO3−)–nitrite (NO2−)–nitric oxide (NO) pathway may help regulate blood pressure. NO2−-producing bacteria in subgingival plaque are reduced in relative abundance in patients with untreated periodontitis compared with periodontally healthy patients. In periodontitis patients, the NO2−-producing bacteria increase several months after periodontal treatment. The early effects of periodontal treatment on NO2−-producing bacteria and the NO3−–NO2−–NO pathway remain unknown. The aim of this study was to determine how periodontal treatment affects the oral NO2−-producing microbiome and salivary NO3−and NO2− levels over time. Methods: The subgingival microbiota of 38 periodontitis patients was analysed before (baseline [BL]) and 1, 7 and 90 days after periodontal treatment. Changes in NO2− -producing bacteria and periodontitis-associated bacteria were determined by 16s rRNA Illumina sequencing. Saliva samples were collected at all-time points to determine NO3− and NO2− levels using gas-phase chemiluminescence. Results: A significant increase was observed in the relative abundance of NO2− - producing species between BL and all subsequent timepoints (all p < 0.001). Periodontitis-associated species decreased at all timepoints, relative to BL (all p < 0.02). NO2− -producing species negatively correlated with periodontitis-associated species at all timepoints, with this relationship strongest 90 days post-treatment (ρ = −0.792, p < 0.001). Despite these findings, no significant changes were found in salivary NO3− and NO2− over time (all p > 0.05). Conclusions: Periodontal treatment induced an immediate increase in the relative abundance of health-associated NO2− -producing bacteria. This increase persisted throughout periodontal healing. Future studies should test the effect of periodontal treatment combined with NO3 − intake on periodontal and cardiovascular health.

KW - 16s rRNA sequencing

KW - nitrate

KW - nitrite

KW - oral nitrate reduction

KW - periodontitis

U2 - 10.1111/omi.12479

DO - 10.1111/omi.12479

M3 - Article

SN - 2041-1006

VL - 39

SP - 491

EP - 506

JO - Molecular Oral Microbiology

JF - Molecular Oral Microbiology

IS - 6

ER -

Periodontal treatment causes a longitudinal increase in nitrite‐producing bacteria

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