Abstract
Hydrofluoric acid elicits cell cycle arrest through a mechanism that has long been presumed to be linked with the high affinity of fluoride to metals. However, we have recently found that the acid stress from fluoride exposure is sufficient to elicit many of the hallmark phenotypes of fluoride toxicity. Here we report the systematic screening of genes involved in fluoride resistance and general acid resistance using a genome deletion library in Saccharomyces cerevisiae. We compare these to a variety of acids – 2,4-dinitrophenol, FCCP, hydrochloric acid, and sulfuric acid – none of which has a high metal affinity. Pathways involved in endocytosis, vesicle trafficking, pH maintenance, and vacuolar function are of particular importance to fluoride tolerance. The majority of genes conferring resistance to fluoride stress also enhanced resistance to general acid toxicity. Genes whose expression regulate Golgi-mediated vesicle transport were specific to fluoride resistance, and may be linked with fluoride-metal interactions. These results support the notion that acidity is an important and underappreciated principle underlying the mechanisms of fluoride toxicity.
•• The full article is available in pdf (see attachment) and also online at https://www.frontiersin.org/articles/10.3389/fmicb.2020.01410/full
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Fluoride metabolism
Knowledge of all aspects of fluoride metabolism is essential for comprehending the biological effects of this ion in humans as well as to drive the prevention (and treatment) of fluoride toxicity. Several aspects of fluoride metabolism - including gastric absorption, distribution and renal excretion - are pH-dependent because the coefficient
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A deep insight into the transcriptome of midgut and fat body reveals the toxic mechanism of fluoride exposure in silkworm.
Highlights 200 mg/L fluoride soaked mulberry leaves exposure inhibits the growth of silkworm larvae. RNA-seq reveals the toxic mechanism of fluoride exposure in silkworm. Fluoride damages oxidative phosphorylation process and disturbs MAPK signaling pathway. The identification of potential transports for fluoride. Fluoride generally exists in the natural environment, and has
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Effects of fluoride on the histology, lipid metabolism, and bile acid secretion in liver of Bufo gargarizans larvae.
Highlights Fluoride triggered histopathological alterations in the liver. Fluoride induced the disruption of lipid metabolism. Fluoride resulted in impairing of antioxidant capacity. Fluoride disturbed the synthesis and secretion of bile acid. Abstract In our study, Bufo gargarizans (B. gargarizans) larvae were exposed to control, 0.5, 5, 10 and 50?mg/L of NaF from
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Aberrant DNA methylation of Cyclind-CDK4-p21 is associated with chronic fluoride poisoning.
Endemic fluorosis is a serious problem in public health, affecting thousands of people. Abnormal proliferation and activation of osteoblasts in skeletal fluorosis lesions play a leading role and osteoblast proliferation is finely regulated by the cell cycle. There are a few reports on fluoride-induced DNA methylation. However, the role of
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Toxicology and Carcinogenesis Studies of Sodium Fluoride in F344/N Rats and B6C3F1 Mice (Drinking Water Studies)
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