Abstract
A study is reported of DNA damage by fluoride to primary calvarial osteoblasts of newborn rats isolated by enzymic digestion. Sodium fluoride at concentrations of 0, 0.5, 1, 2, and 3 mmol/L was administered to the isolated osteoblast cells for 24 hr, and damage to DNA was determined by single cell gel electrophoresis assay (SCGE = Comet assay). Breakage of DNA strands occurred at 2 mmol /L NaF and above. Compared with the control group, the comet tail length was significantly increased, indicating that, at sufficient concentrations, fluoride can induce DNA damage in osteoblasts.
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Investigation of the genotoxic effects of fluoride on a bone tissue model .
Fluorides are thought to be a major cause of osteocarcinogenesis, due to their widespread industrial use, ability to accumulate in bone tissue, and genotoxic and probable carcinogenic properties. In vitro experiments investigating the genotoxic potential of fluorides in bone tissue models can provide valuable indirect information on their involvement in
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A stable and sensitive testing system for potential carcinogens based on DNA damage-induced gene expression in human HepG2 cell
In order to analyze potential carcinogenic and genotoxic responses caused by exposure to pollutants existing in environment, a screening method has been established in our laboratory that uses a stably transfected HepG2 cell lines containing gadd153 promoter regions which drive a luciferase reporter gene. Activation of the exogenous gadd153 promoter
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Toxicity assessment of sodium fluoride in Drosophila melanogaster after chronic sub-lethal exposure
Sodium fluoride (NaF), one of the most frequently used fluoride compound is composed of Na+ and F-. Apart from its use in water fluoridation, NaF also acts as a major component for different dental products like toothpastes, gels and mouth rinses etc. The present study was carried out to explore the toxic impact of chronic
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DNA damage induced by fluoride in rat kidney cells.
DNA damage by fluoride to newborn rat kidney cells isolated by enzymic digestion is reported. The cells were exposed for 24 hr to sodium fluoride at NaF concentrations of 0, 0.2, 0.4, 0.8, and 1.0 mM. Damage to DNA was determined by single cell gel electrophoresis assay (Comet assay). Significant breakage of DNA strands
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TGF-ß1 acts as mediator in fluoride-induced autophagy in the mouse osteoblast cells.
Highlights NaF exposure significantly decreased the proliferation rate of mouse osteoblast cells in a dose dependent manner. NaF exposure induced autophagy in the osteoblast cells with an increase in TGF-ß1 expression. Overexpression of TGF-ß1 enhanced NaF-induced autophagy. Silencing of TGF-ß1 reduced NaF-induced autophagy. Abstract It is well known that excess fluoride intake
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Fluoride's Effect on Osteoblasts (Bone-Forming Cells)
As noted by the National Research Council, "[p]erhaps the single clearest effect of fluoride on the skeleton is its stimulation of osteoblast proliferation." (NRC 2006). Osteoblasts are bone-forming cells. "Stimulatory effects of fluoride on osteoblasts result in formation of osteoid, which subsequently undergoes mineralization." (Fisher RL, et al. 1989). If the new
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NTP Bioassay on Fluoride/Cancer (1990)
In 1977, the U.S. Congress requested that animal studies be conducted to determine if fluoride can cause cancer. The result of the Congressional request was an extensive animal study conducted in the 1980s by the National Toxicology Program (NTP) and published in 1990. The main finding of NTP's study was a dose-dependent increase in osteosarcoma (bone cancer) among the fluoride-treated male rats.
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Fluoride's Mutagenicity: In vivo Studies
Consistent with dozens of in vitro studies, a number of in vivo studies, in both humans and animals, have found evidence of fluoride-induced genetic damage. In particular, research on humans exposed to high levels of fluoride have found increased levels of "sister chromatid exchange" (SCE). As noted in one study: "In
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Micronucleus and Sister Chromatid Exchange Frequency in Endemic Fluorosis
The rise of sister chromatid exchange (SCE) and micronucleus (MN) in the peripheral blood lymphocytes of the fluorine-intoxicated patients indicates that fluorine is a mutagenic agent which can cause DNA and chromosomal damage.
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Fluoride's Mutagenicity: The "Oral Health Research Institute's" Studies
Although many in vitro and in vivo studies have detected mutagenic effects from fluoride exposure, the Oral Health Research Institute at Indiana University's School of Dentistry has repeatedly failed to find any such effect in multiple studies on the subject.
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