a b s t r a c tPesticide exposure during brain development could represent an important risk factor for the onset of neurodegenerative diseases. Previous studies investigated the effect of permethrin (PERM) administered at 34 mg/kg, a dose close to the no observable adverse effect level (NOAEL) from post natal day (PND) 6 to PND 21 in rats. Despite the PERM dose did not elicited overt signs of toxicity (i.e. normal body weight gain curve), it was able to induce striatal neurodegeneration (dopamine and Nurr1 reduction, and lipid peroxidation increase). The present study was designed to characterize the cognitive deficits in the current animal model. When during late adulthood PERM treated rats were tested for spatial working memory performances in a T-maze-rewarded alternation task they took longer to choose for the correct arm in comparison to age matched controls. No differences between groups were found in anxiety-like state, locomotor activity, feeding behavior and spatial orientation task. Our findings showing a selective effect of PERM treatment on the T-maze task point to an involvement of frontal cortico-striatal circuitry rather than to a role for the hippocampus. The predominant disturbances concern the dopamine (DA) depletion in the striatum and, the serotonin (5-HT) and noradrenaline (NE) unbalance together with a hypometabolic state in the medial prefrontal cortex area. In the hippocampus, an increase of NE and a decrease of DA were observed in PERM treated rats as compared to controls. The concentration of the most representative marker for pyrethroid exposure (3-phenoxybenzoic acid) measured in the urine of rodents 12 h after the last treatment was 41.50 g/L and it was completely eliminated after 96 h.
BackgroundDuring the neurodevelopmental period, the brain is potentially more susceptible to environmental exposure to pollutants. The aim was to determine if neonatal exposure to permethrin (PERM) pesticide, at a low dosage that does not produce signs of obvious abnormalities, could represent a risk for the onset of diseases later in the life.MethodsNeonatal rats (from postnatal day 6 to 21) were treated daily by gavage with a dose of PERM (34 mg/kg) close to the no-observed-adverse-effect level (NOAEL), and hippocampal morphology and function of synapses were investigated in adulthood. Fear conditioning, passive avoidance and Morris water maze tests were used to assess cognitive skills in rats, whereas electron microscopy analysis was used to investigate hippocampal morphological changes that occurred in adults.ResultsIn both contextual and tone fear conditioning tests, PERM-treated rats showed a decreased freezing. In the passive avoidance test, the consolidation of the inhibitory avoidance was time-limited: the memory was not impaired for the first 24 h, whereas the information was not retained 72 h following training. The same trend was observed in the spatial reference memories acquired by Morris water maze. In PERM-treated rats, electron microscopy analysis revealed a decrease of synapses and surface densities in the stratum moleculare of CA1, in the inner molecular layer of the dentate gyrus and in the mossy fibers of the hippocampal areas together with a decrease of perforated synapses in the stratum moleculare of CA1 and in the inner molecular layer of the dentate gyrus.ConclusionsEarly-life permethrin exposure imparts long-lasting consequences on the hippocampus such as impairment of long-term memory storage and synaptic morphology.
Due to increased global use, acute and chronic exposures to pyrethroid insecticides in humans are of clinical concern. Pyrethroids have a primary mode of action that involves interference with the sodium and calcium channels in excitable cells, which may include cardiac myocytes. Here, we investigated the possible cardiac toxicity of permethrin metabolites (METP), 3-phenoxy-benzyl alcohol (3PBA), 3-phenoxy-benzaldehyde (3PBALD), and 3-phenoxybenzoic acid (3PBACID). Plasma membrane fluidity, polarity, lipid, and protein oxidation were studied in isolated rat heart cells. Laurdan was chosen as probe to detect the lateral mobility and polarity of its environment and thus water penetration into the hydrophobic part of the bilayer, while 1,6-diphenyl-1,3,5-hexatriene permits to measure changes in fluidity in the inner part of the bilayer. Results show that METP can change membrane fluidity at different depths of the bilayer according to their partition coefficient. Consequently, 3PBA, at all concentration used, decreases membrane fluidity and polarity in the hydrophilic-hydrophobic region of the bilayer, and similar effect was observed with 20 μM 3PBALD or 10 or 20 μM 3 PBACID. Membrane dynamics in the hydrophobic core resulted decreased by 3PBALD, while it was increased by 20 μM 3PBACID. All METP increase protein and lipid oxidation, and the peroxidative lipid damage decreases with the type of METP produced during the transformation pathway from parent compound to 3PBACID. Consequently, 3PBA induced the highest lipid peroxidation, while 3PBACID was the stronger inducer of protein damage.
The effect of a low dose of the insecticide permethrin administered during early-life was evaluated on leukocytes inflammation mediators on 300- and 500-day-old rats. Nurr1, NF-κB-p65, Nrf2, lipid peroxidation and GSH levels increased with age but compared to the control group, treatment with permethrin induced a significant increase only of Nurr1 and lipid peroxidation in oldest rats. TNF-α and Rantes increased, while IL-1β, IL-2, IL-13 decreased in oldest treated rats. The results propose Nurr1, TNF-α, Rantes, GSH and plasma lipid peroxidation as peripheral biomarkers for monitoring the impact of early-life environmental exposure to xenobiotics in old age.
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