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. 2025 Apr 9;17(1):2489612.
doi: 10.1080/20002297.2025.2489612. eCollection 2025.

Nitrate reduction by salivary bacteria, glucose metabolism, and lifestyle

Evangelia Morou-Bermúdez  1 Kai Guo  1 Jairelisse Morales Morales  1 Karina Ricart  2 Rakesh P Patel  2 José C Clemente  3 Kaumudi Joshipura  4
Affiliations

Nitrate reduction by salivary bacteria, glucose metabolism, and lifestyle

Evangelia Morou-Bermúdez et al. J Oral Microbiol. .

Abstract

Background: Nitrate reductases (NR) expressed in oral bacteria reduce nitrate to nitrite. Depending on the environmental conditions and types of bacteria present nitrite can be further reduced to ammonium via Dissimilatory Nitrate Reduction to Ammonium (DNRA), or alternatively to nitric oxide (NO), which impacts cardiometabolic health.

Objective: To evaluate the associations between nitrate reduction by salivary bacteria, clinical markers of glucose metabolism, and lifestyle factors that can modulate the oral environment, potentially impacting DNRA and NR expression.

Methods: A cross-sectional study was conducted using a convenience sample of 144 participants from the San Juan Overweight Adult Longitudinal Study (SOALS), which includes data on glucose metabolism and lifestyle. DNRA and NR activities were measured in saliva under aerobic or CO2-enriched conditions.

Results: DNRA activity was inversely associated with insulin resistance (HOMA-IR) [aerobic3rd vs.1st tertile: β=-0.48 (-0.81, -0.15); CO2-enriched3rd vs.1st tertile β=-0.42 (-0.68, -0.17)], fasting blood glucose [aerobic3rd vs.1st tertile β=-0.144 (-0.268, -0.019); CO2-enriched3rd vs.1st tertile: β=-0.070 (-0.130, -0.011)], and 2-h glucose [CO2-enriched3rd vs.1st tertileβ=-0.21 (-0.37, -0.04)]. Current smokers had lower DNRA activity than non-smokers under aerobic conditions [β=-1.55 (-2.96, -0.14)], but higher under CO2-enriched conditions [β = 0.93 (0.15, 1.71)]. Toothbrushing frequency (twice/day vs. once/day) was positively associated with DNRA activity under CO2-enriched conditions [β = 4.11 (1.90, 6.32)] and with aerobic NR activity [β = 1.20, (0.14, 2.27)]. Physical activity was inversely associated with aerobic NR [β=-0.01, (-0.022, -0.003)]. Under CO2-enriched conditions NR was inversely associated with the BMI (β=-0.11, p = 0.007). Aerobic NR was higher when sucrose was added to the assays (NADP vs. sucrose β=-0.74, p = 0.02) and positively associated with salivary nitrate levels (β = 0.002, p = 0.002).

Conclusions: Nitrate reduction by salivary bacteria is inversely associated with insulin resistance and can be modulated by lifestyle factors. This knowledge could lead to the development of novel, non-invasive approaches for monitoring and preventing diabetes progression.

Keywords: Nitric oxide; ammonium; brushing; diabetes; insulin resistance; lifestyle; nitrate; nitrite; salivary microbiome; smoking.

Plain language summary

This study provides new evidence regarding the role of the salivary microbiome in glucose metabolism, which could be applied to the development of novel, saliva-based, non-invasive approaches for monitoring and preventing diabetes progression.

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Conflict of interest statement

Dr. R. Patel is a coinventor on the use of nitrite salts for the treatment of cardiovascular conditions and chronic ischemia and a co-inventor on a provisional patent for methods to diagnose and predict chronic lung and bowel disease in pre-term infants. Dr. Morou-Bermúdez is inventor on a provisional patent application for the use of ammonium production from nitrate by oral bacteria as a biomarker for monitoring insulin resistance filed by the University of Puerto Rico. Other authors do not have any conflicts of interest to report.

Figures

Figure 1.
Figure 1.
DNRA (nmoles NH4+/min/mg) and nitrate reductase (NO2/min/mg) activity of saliva samples by HOMA-IR categories under aerobic (a, c) and CO2-enriched (reduced-oxygen) conditions (b, d). HOMA-IR categories have been defined according to proposed thresholds for diabetes (<2: Normal, 2–2.9: Pre-diabetes, ≥3: Diabetes) [18–20].
Figure 2.
Figure 2.
Ammonium production from oral nitrate reduction as a biomarker of the entero-salivary pathway and insulin signaling.
See this image and copyright information in PMC

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References

    1. Kapil V, Khambata RS, Jones DA, et al. The noncanonical pathway for in vivo nitric oxide generation: the nitrate-nitrite-nitric oxide pathway Pharmacol Rev. 2020. doi:10.1124/pr.120.019240 - DOI - PubMed
    1. Ghasemi A, Jeddi S.. Anti-obesity and anti-diabetic effects of nitrate and nitrite. Nitric Oxide. 2017;70:9–11. doi: 10.1016/j.niox.2017.08.003 - DOI - PubMed
    1. Lundberg JO, Carlström M, Weitzberg E. Metabolic effects of dietary nitrate in health and disease. Cell Metab. 2018;28(1):9–22. doi: 10.1016/j.cmet.2018.06.007 - DOI - PubMed
    1. Goh CE, Trinh P, Colombo PC, et al. Association between Nitrate‐Reducing oral bacteria and cardiometabolic outcomes: results from ORIGINS. J Am Heart Assoc. 2019. [cited 2021 April 25];8(23). doi: 10.1161/JAHA.119.013324 - DOI - PMC - PubMed
    1. Wei YS, Hsiao YC, Su GW, et al. Identification of hyperglycemia-associated microbiota alterations in saliva and gingival sulcus. Arch Biochem Biophys. 2020:682. doi: 10.1016/j.abb.2020.108278 - DOI - PubMed

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