Abstract
Previous studies demonstrated that fluoride, as a widespread environmental pollutant, induced the reproductive toxicity at high dose. Besides the decrease of sperm characteristics like concentration, survival, and sperm motility, it was found that high fluoride induced the destructive mitochondrial ultrastructure and decreased ATP production from mitochondrial respiration. However, whether fluoride exposure can damage the mitochondrial DNA (mtDNA) of sperm is still unknown. In this study, 100 male mice were randomly divided into four groups 25 each, which were administrated with the distilled water containing 0, 25, 50 and 100 mg L-1 NaF, respectively for 60 days. After exposure, sperm mtDNA copy number was measured by real-time PCR, mtDNA integrity by acridine orange (AO) staining, and nuclear DNA (nDNA) integrity through long PCR amplification, as well as MTCYB and MTATP6 mutations by PCR and direct sequencing. The results showed that 100 mg L-1 NaF significantly increased sperm mtDNA copy number, and reduced nDNA integrity. There were no changes observed in mtDNA integrity, and mutations of MTCYB and MTATP6 between fluoride groups and the control group. These results indicated that along with low sperm quality, sperm mtDNA copy number is also a sensitive biomarker to reflect the sperm toxicity of fluoride.
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Vitamin C and E supplementation can ameliorate NaF mediated testicular and spermatozoal DNA damages in adult Wistar rats.
Objective: Present study was designed to explore the efficacy of vitamin C and E (VC&VE) against fluoride mediated testicular, epididymal and spermatozoal anomalies. Materials and methods: Thirty two adult Wistar rats were divided into four groups. Group-I was control; Group-II received sodium fluoride (NaF) at 15 mg/kg/day
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Fluoride decreased the sperm ATP of mice through inhabiting mitochondrial respiration
Fluoride-induced low sperm motility was observed in accumulated investigations. However, the effect of fluoride exposure on ATP generation which is essential to sperm motility remains to be elucidated. In this study, 120 healthy male mice were orally administrated with 0, 25, 50, and 100 mg L-1 NaF for 90 d. Results showed that
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Chemical pathology of homocysteine. IV. Excitotoxicity, oxidative stress, endothelial dysfunction, and inflammation.
This review considers recent advances in the chemical pathology of homocysteine in atherogenesis, oxidative metabolism, and carcinogenesis. Homocysteine is a potent excitatory neurotransmitter that binds to the N-methyl-D-aspartate (NMDA) receptor and leads to oxidative stress, cytoplasmic calcium influx, cellular apoptosis, and endothelial dysfunction. According to the adsorption-induction theory, cytoplasmic calcium
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Low-to-moderate fluoride exposure, relative mitochondrial DNA levels, and dental fluorosis in Chinese children.
Highlights Circulating mtDNA content is negatively related to low-to-moderate fluoride exposure. Dental fluorosis (DF) prevalence is positively related to fluoride exposure. Circulating mtDNA content is negatively associated with the DF prevalence. Gender modifies the associations of DF prevalence with mtDNA and fluoride exposure. mtDNA content partly mediates association of
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The effect of vitamin E and selenium combination in repairing fluoride-induced DNA damage to NRK-52E cells.
Prolonged and excessive fluoride exposure can lead to fluorosis. The kidney is one of the organs that are injured mostly due to fluoride-induced damage. Fluoride can induce DNA damage at cytotoxic concentrations. This study aims to determine the extent of NaF-induced DNA damage and to investigate the effect of vitamin
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Factors which increase the risk for skeletal fluorosis
The risk for developing skeletal fluorosis, and the course the disease will take, is not solely dependent on the dose of fluoride ingested. Indeed, people exposed to similar doses of fluoride may experience markedly different effects. While the wide range in individual response to fluoride is not yet fully understood, the following are some of the factors that are believed to play a role.
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Dental Fluorosis & Enamel Hypoplasia in Children with Kidney Disease
Children with kidney disease are known to have high levels of fluoride in their blood and to be at risk for disfiguring tooth defects. Research suggests that high levels of fluoride in blood, which can cause the tooth defect known as dental fluorosis, can contribute to the defects that occur
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Fluoridated Water Causes Severe Dental Fluorosis in Children with Diabetes Insipidus
This section on Diabetes includes: • Fluoride & Impaired Glucose Tolerance • Fluoride & Insulin • Fluoride Sensitivity Among Diabetics • Fluoridated Water Causes Severe Dental Fluorosis in Children with Diabetes Insipidus • NRC (2006): Fluoride’s Effect on Glucose Metabolism Excessive exposure to fluoride causes a defect of the tooth enamel known as dental fluorosis. In
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Fluoride Exposure Aggravates the Impact of Iodine Deficiency
A consistent body of animal and human research shows that fluoride exposure worsens the impact of an iodine deficiency. Iodine is the basic building block of the T3 and T4 hormones and thus an adequate iodine intake is essential for the proper functioning of the thyroid gland. When iodine intake is inadequate during infancy and
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Skeletal Fluorosis & Individual Variability
One of the common fallacies in the research on skeletal fluorosis is the notion that there is a uniform level of fluoride that is safe for everyone in the population. These "safety thresholds" have been expressed in terms of (a) bone fluoride content, (b) daily dose, (c) water fluoride level, (d) urinary fluoride level, and (e) blood fluoride level. The central fallacy with each of these alleged safety thresholds, however, is that they ignore the wide range of individual susceptibility in how people respond to toxic substances, including fluoride.
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