Our previous studies showed that excessive fluoride (F) ingestion seriously damaged the nonspecific immune function in rabbits. However, the underlying mechanisms of the F-induced damage to the immune system are unclear. The purpose of this study was to investigate whether F induces thymus apoptosis in female rats and its underlying mechanisms by monitoring ultrastructural changes and DNA fragmentation. The results showed that excessive F induced ultrastructural changes and significantly increased the tail length and tailing ratio in thymus lymphocytes. Protein (Pr) supplementation markedly decreased the tailing ratio in thymus lymphocytes in the case of malnutrition. Furthermore, molecular analysis showed that excessive F ingestion significantly up-regulated the expression levels of caspase-3 and caspase-9 mRNA, whereas Pr and calcium (Ca) supplementation down-regulated the expression levels induced by excessive F in the case of malnutrition. In conclusion, these results indicate that excessive F up-regulates the expression levels of caspase-3 and caspase-9 mRNA and induces thymus apoptosis in female rats. Pr and Ca play key roles in process of F-induced thymus apoptosis in malnourished female rats.
This study investigated the damage and expression of dentine phosphoprotein (DPP) in guinea pig teeth by the administration of fluoride (F) or/and aluminum (Al). Fifty-two guinea pigs were divided randomly into four groups (control, F, Al, and F+Al). F (150 mg NaF/L) or/and Al (300 mg AlCl /L) were added in their drinking water for 90 days. The levels of F ion, dentine sialophosphoprotein (DSPP) gene, and DPP protein in incisor and molar were determined, respectively. The results showed that the concentrations of F ion in F and F+Al groups were increased significantly. F induced the mottled enamel and irregular abrasion of teeth, which might occur as a consequence of depressed DSPP mRNA and DPP protein expression. Both the gene and protein expressions showed obvious decrease induced by Al, especially by F. There were no synergistic effects between F and Al, instead, Al inhibited the toxicity of F.
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