Effects of long-term fluoride exposure are associated with oxidative biochemistry impairment and global proteomic modulation, but not genotoxicity, in parotid glands of mice.

Giza Hellen Nonato Miranda,Aline Dionizio,Leidiane Alencar De Oliveira Lima,Michel Platini Caldas De Souza,Sávio Monteiro Dos Santos,Rafael Rodrigues Lima,Marta Chagas Monteiro,Leonardo Oliveira Bittencourt,Aline Lima Leite,Lygia Sega Nogueira,Edivaldo Herculano Corrêa De Oliveira,Marília Afonso Rabelo Buzalaf,Juliano Pelim Pessan,Yasmina Abd‐Elhakim

doi:10.1371/journal.pone.0261252

Abstract

BackgroundFluoride has become widely used in dentistry because of its effectiveness in caries control. However, evidence indicates that excessive intake interferes with the metabolic processes of different tissues. Thus, this study aimed to investigate the effects of long-term exposure to F on the parotid salivary gland of mice, from the analysis of oxidative, proteomic and genotoxic parameters.Materials and methodsThe animals received deionized water containing 0, 10 or 50 mg/L of F, as sodium fluoride, for 60 days. After, parotid glands were collected for analysis of oxidative biochemistry, global proteomic profile, genotoxicity assessment and histopathological analyses.ResultsThe results revealed that exposure to fluoride interfered in the biochemical homeostasis of the parotid gland, with increased levels of thiobarbituric acid reactive species and reduced glutathione in the exposed groups; as well as promoted alteration of the glandular proteomic profile in these groups, especially in structural proteins and proteins related to oxidative stress. However, genotoxic assessment demonstrated that exposure to fluoride did not interfere with DNA integrity in these concentrations and durations of exposure. Also, it was not observed histopathological alterations in parotid gland.ConclusionsThus, our results suggest that long-term exposure to fluoride promoted modulation of the proteomic and biochemical profile in the parotid glands, without inducing damage to the genetic component. These findings reinforce the importance of rationalizing the use of fluorides to maximize their preventative effects while minimizing the environmental risks.

Highlights

The effectiveness, safety and cost-effectiveness of the use of fluoride (F) for caries control have been well-documented for several decades
The results revealed that exposure to fluoride interfered in the biochemical homeostasis of the parotid gland, with increased levels of thiobarbituric acid reactive species and reduced glutathione in the exposed groups; as well as promoted alteration of the glandular proteomic profile in these groups, especially in structural proteins and proteins related to oxidative stress
The analysis of oxidative biochemistry showed a significant increase in the thiobarbituric acid reactive substances (TBARS) concentration (p< 0.00) and GSH content (p = 0.00) in the exposed groups (10 mg/L and 50 mg/L of F)

Summary

Introduction

The effectiveness, safety and cost-effectiveness of the use of fluoride (F) for caries control have been well-documented for several decades. Overexposure to F can damage several biological processes, which can be associated with disorders in mitochondrial metabolism, induction of oxidative stress, interference with protein regulation and apoptotic process initialing [2]. The effects of excessive F intake on the metabolism of essential organs to the physiological balance of the oral environment (the salivary glands) have been investigated. Fluoride has become widely used in dentistry because of its effectiveness in caries control. Evidence indicates that excessive intake interferes with the metabolic processes of different tissues. This study aimed to investigate the effects of long-term exposure to F on the parotid salivary gland of mice, from the analysis of oxidative, proteomic and genotoxic parameters

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Discussion

Conclusion