Exposure to paraquat is possibly involved with the development of several conditions, including neurodegenerative diseases, such as Parkinson’s disease (PD). This condition is mainly characterized by the loss of dopaminergic neurons in the nigrostriatal pathway and the development of classical motor symptoms. Etiology includes exposure to environmental factors, such as the paraquat exposure, and inflammatory diseases may exacerbate paraquat neurotoxicity. The aim of the study was to investigate whether the exposure to paraquat associated with the presence of periodontal disease is able to induce motor and biochemical changes in rats similar to that observed in PD. Adult male Wistar rats were sent to ligature. After 48 h, they were sent to daily treatment paraquat (1 mg/kg/day; 2 mL/kg; intragastric) or vehicle for 4 weeks. Twenty-four hours after the last administration, the open field test was performed. The rats were euthanized and the left hemimandibles and striatum were dissected for the analysis of dopaminergic and inflammatory markers. Only the combination of periodontal disease model plus paraquat exposure induced motor impairments. Remarkably, the paraquat exposure increased the ligature-induced alveolar bone loss in hemimandibles. Moreover, only the combination of periodontal disease and paraquat exposure induced the loss of dopaminergic neurons and astrocyte activation in the striatum.
The anxiety disorders belong to a group of mental disorders in which the patients present excessive fear and worry. Studies with ferulic acid have shown positive results on treating depressive symptoms. As many antidepressive drugs are effective in treating anxiety, the objective of the present study was to evaluate ferulic acid’s anxiolytic activity and possible mechanism of action in the light-dark test in zebrafish. To evaluate anxiolytic activity, the light-dark preference test was performed after exposure of the animals to ferulic acid or positive control (clonazepam or fluoxetine). Ferulic acid increased the time spent in the clear compartment at concentrations of 250 and 500 mg/L, not differing from the groups exposed to clonazepam or fluoxetine. To evaluate the possible mechanism of action, pre-exposure to flumazenil was carried out, followed by exposure to ferulic acid or positive control, with subsequent testing. Pre-exposure to flumazenil caused a significant reduction in the time spent in the clear compartment of ferulic acid and clonazepam groups but did not alter the effect of exposure to fluoxetine. These results suggest that ferulic acid promotes an anxiolytic effect, possibly through an action at the benzodiazepine binding site at the GABAA receptor.
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