Abstract
Fluoride can induce neurotoxicity, but the mechanism is not clear. In this study, we explored the role of autophagy in F–-induced neurotoxicity of Wistar rats. Eighty Wistar rats were randomly divided into four groups: the control group (distilled water containing less than 0.1 mg/L F–) and three NaF-treated groups (F– was respectively administered at 25, 50, and 100 mg/L orally via drinking water). The water maze experiment showed that NaF exposure impaired the learning capabilities of the rats. When compared with the control group, the mean escape latency of the rats in the 100 mg/L F– group was much longer (P?<?0.05). Immunohistochemical analysis showed that NaF exposure induced autophagy, as shown by the significant increase of Beclin-1 expression in the hippocampal CA1 region and DG region. Transmission electron microscopy was used to observe the ultrastructural changes of hippocampal neurons. With the increase of F– concentration, the ultrastructural abnormalities of hippocampal neurons increased. These results indicate that fluoride can impair the learning ability of rats, which may be related to the induction of autophagy in rat hippocampal neurons.
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Memory impairment induced by sodium fluoride is associated with changes in brain monoamine levels.
Previous studies suggest that sodium fluoride (NaF) can impair performance in some memory tasks, such as open-field habituation and two-way active avoidance. In the present study, we evaluated the effect of NaF intake (100 ppm in drinking water for 30 days) and its short-term (15 days) withdrawal on open-field habituation and brain monoamine
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Effects of fluoride on microtubule ultrastructure and expression of TubB1a and TubB2a in mouse hippocampus
Axonal and dendrictic degenerations were observed in non-skeleton fluorosis as the neurological manifestations. Microtubules, composed of the assembled tubulin dimers, are the essential cytoskeleton of axon and dendron. However, the effect of fluoride (F) on microtubules status and tubulin dimer expression in central nerves system remains largely unknown. In this
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Sodium Butyrate Ameliorates Fluorosis-Induced Neurotoxicity by Regulating Hippocampal Glycolysis In Vivo.
Fluorosis can induce neurotoxicity. Sodium butyrate (SB), a histone deacetylase inhibitor, has important research potential in correcting glucose metabolism disorders and is widely used in a variety of neurological diseases and metabolic diseases, but it is not yet known whether it plays a role in combating fluoride-induced neurotoxicity. This study
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Excessive ER stress and the resulting autophagic flux dysfunction contribute to fluoride-induced neurotoxicity.
Highlights Excessive ER stress plays an important role in NaF-induced neurotoxicity. NaF-induced neuronal death is caused by ER stress-elicited apoptosis and the impaired autophagic flux. Impaired autophagic flux was mediated by excessive ER stress in NaF-induced neurotoxicity. Fluoride is capable of inducing neurotoxicity, but its mechanisms remain elusive. This study
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Fluoride-induced neuron apoptosis and expressions of inflammatory factors by activating microglia in rat brain
Excessive exposure to fluoride results in structural and functional damages to the central nervous system (CNS), and neurotoxicity of fluoride may be associated with neurodegenerative changes. Chronic microglial activation appears to cause neuronal damage through producing proinflammatory cytokines and is involved in many neurodegenerative disorders. It is not known about
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NRC (2006): Fluoride's Neurotoxicity and Neurobehavioral Effects
The NRC's analysis on fluoride and the brain.
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Fluoride Affects Learning & Memory in Animals
An association between elevated fluoride exposure and reduced intelligence has now been observed in 65 IQ studies. Although a link between fluoride and intelligence might initially seem surprising or random, it is actually consistent with a large body of animal research. This animal research includes the following 45 studies (out
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Fluoride: Developmental Neurotoxicity.
Developmental Neurotoxicity There has been a tremendous amount of research done on the association of exposure to fluoride with developmental neurotoxicity. There are 78 studies reporting reduced IQ (75 studies with children and 3 studies with adults) and several on the impaired learning/memory in animals. And there are studies which link
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Fluoride & IQ: 76 Studies
Note: See the Updated list of fluoride IQ studies at https://fluoridealert.org/researchers/fluoride-iq-studies/the-fluoride-iq-studies/ • As of July 18, 2022, a total of 85 human studies have investigated the relationship between fluoride and human intelligence. • Of these investigations, 76 studies have reported that elevated fluoride exposure is associated with reduced IQ in humans. • The studies
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Fluoride's Direct Effects on Brain: Animal Studies
The possibility that fluoride ingestion may impair intelligence and other indices of neurological function is supported by a vast body of animal research, including over 40 studies that have investigated fluoride's effects on brain quality in animals. As discussed by the National Research Council, the studies have consistently demonstrated that fluoride, at widely varying concentrations, is toxic to the brain.
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