Low-dose neonatal domoic acid causes persistent ...



Title Low-dose neonatal domoic acid causes persistent changes in behavioural and molecular indicators of stress response in rats
Author(s) D. A. Gill, M. A. Perry, E. P. McGuire, A. Pérez-Gómez, R. A. Tasker
Journal Behavioural Brain Research
Date 2012
Volume 230
Issue 2
Start page 417
End page 417
Abstract Appropriate stress responses rely on a finely-tuned neuronal balance that must continually adapt to a fre- quently changing external environment. Alterations in this balance can result in susceptibility to a variety of stress-related disorders, as well as exacerbate already existing conditions. We have previously reported that rat pups injected with a very low dose (20 􏰀g/kg) of domoic acid during the second postnatal week of life display low-grade seizure behaviours when challenged with stressful tasks, and also exhibit a variety of structural and functional changes similar to those seen in temporal lobe epilepsy. The current study was designed to investigate markers of altered stress-response in this model. Following neonatal treatment, adult rats were tested in the elevated plus maze, as well as two water maze tasks, both of which involved a platform reversal challenge. Results indicated a modified behavioural stress/anxiety response, increased perseveration, and alterations in search strategy for all domoate-treated rats, as well as male-specific deficits in cognitive flexibility. In addition, 80% of treated males and 20% of treated females exhibited seizure behaviour. Western blot analysis revealed male-only increases in adrenergic receptor (􏰁2a and 􏰁2c) and mineralocorticoid receptor expression, and subtle sex-specific changes in glucocorticoid recep- tor expression, but no differences in corticotropin-releasing factor receptors I/II, or dopamine D2 receptor expression. A significant decrease in glucocorticoid:mineralocorticoid ratio was also noted. We conclude that early exposure to DOM alters central mechanisms underlying stress response, and that this model may be valuable for investigating the connection between stress and neurological disorders.
© 2012 Elsevier B.V. All rights reserved.
DOI 10.1016/j.bbr.2012.02.036
PubMed ID 22387806

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