Melissa A. Perry scite author profile

It is well established that the developing brain is a highly dynamic environment that is susceptible to toxicity produced by a number of pharmacological, chemical and environmental insults. We report herein on permanent behavioural and morphological changes produced by exposing newborn rats to very low (subconvulsive) doses of kainate receptor agonists during a critical window of brain development. Daily treatment of SD rat pups with either 5 or 20 microg/kg of domoic acid (DOM) from postnatal day 8-14 resulted in a permanent and reproducible seizure-like syndrome when animals were exposed to different tests of spatial cognition as adults. Similar results were obtained when animals were treated with equi-efficacious doses of kainic acid (KA; 25 or 100 microg/kg). Treated rats had significant increases in hippocampal mossy fiber staining and reductions in hippocampal cell counts consistent with effects seen in adult rats following acute injections of high doses of kainic acid. In situ hybridization also revealed an elevation in hippocampal brain derived neurotrophic factor (BDNF) mRNA in region CA1 without a corresponding increase in neuropeptide Y (NPY) mRNA. These results provide evidence of long-lasting behavioural and histochemical consequences arising from relatively subtle changes in glutamatergic activity during development, that may be relevant to understanding the aetiology of seizure disorders and other forms of neurological disease.

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NMDA receptor involvement in the effects of low dose domoic acid in neonatal rats

Tasker

Perry

Doucette

et al. 2005

Amino Acids

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We have previously reported that neonatal rats display enhanced sensitivity to domoic acid relative to adults, and that perinatal injections of low doses of domoic acid alter early associational learning in the newborn rat. The current study was designed to further investigate the effects of low dose domoic acid on neonatal odour conditioning and to determine if the observed effects are due in part to an action on NMDA receptors. Groups of rat pups were conditioned to a novel odour on postnatal day (PND) 8, injected with 20 microg/kg domoic acid either alone, or in combination with the NMDA antagonist CPP (or appropriate controls), daily from day 8-14, re-exposed to the conditioning odour or a novel odour on day 9, and tested for odour preference on day 13 using a standard 3-choice paradigm. Results indicated that rats treated with domoic acid spent significantly more time over the conditioning odour than did saline-treated rats when tested on PND 13. This effect was antagonized by concomitant injection of CPP, indicating an involvement of NMDA receptors in the actions of DOM in this paradigm. Rats injected with either saline or CPP alone showed the opposite effect, i.e. a preference for the alternate odour. The results indicate that a very low dose of DOM produces a conditioned odour preference in neonatal rats and that this effect is due in part to NMDA receptor involvement, thereby emphasizing a role for both kainate and NMDA glutamate receptors in implicit memory.

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Effects of low dose neonatal domoic acid administration on behavioural and physiological response to mild stress in adult rats

Perry

Ryan

Tasker

2009

Physiology & Behavior

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Low-dose neonatal domoic acid causes persistent changes in behavioural and molecular indicators of stress response in rats

Gill

Perry

McGuire

et al. 2012

Behavioural Brain Research

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An improved post-operative care protocol allows detection of long-term functional deficits following MCAo surgery in rats

Ryan

Doucette

Gill

et al. 2006

Journal of Neuroscience Methods

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Melissa A. Perry

Low doses of domoic acid during postnatal development produce permanent changes in rat behaviour and hippocampal morphology

NMDA receptor involvement in the effects of low dose domoic acid in neonatal rats

Effects of low dose neonatal domoic acid administration on behavioural and physiological response to mild stress in adult rats

Low-dose neonatal domoic acid causes persistent changes in behavioural and molecular indicators of stress response in rats

An improved post-operative care protocol allows detection of long-term functional deficits following MCAo surgery in rats

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