Dehydroepiandrosterone increases synaptosomal glutamate release and improves the performance in inhibitory avoidance task.

Dehydroepiandrosterone (DHEA) exerts multiple effects in the rodent central nervous system (CNS), mediated through its nongenomic actions on several neurotransmitter systems, increasing neuronal excitability, modulating neuronal plasticity and presenting neuroprotective properties. It has been demonstrated that DHEA is a potent modulator of GABA(A), NMDA and Sigma receptors. In the present study, we investigated the effect of DHEA on (i) basal- and K(+)-stimulated l-[(3)H]glutamate release from synaptosomes (both in vitro and ex vivo), (ii) synaptosomal l-[(3)H]glutamate uptake (in vitro), and (iii) an inhibitory avoidance task (in vivo). The results indicated that DHEA in vitro increased glutamate release by 57%, and its intracerebroventricular infusion increased the basal-[(3)H]glutamate release by 15%. After 30 min of intraperitoneal administration, DHEA levels in the serum or CSF increased 33 and 21 times, respectively. Additionally, DHEA, intraperitoneally administrated 30 min before training, improved memory for inhibitory avoidance task. Concluding, DHEA could improve memory on an inhibitory avoidance task, perhaps due to its ability to physiologically strength the glutamatergic tonus by increasing glutamate release.

Methylmercury increases glutamate release from brain synaptosomes and glutamate uptake by cortical slices from suckling rat pups: modulatory effect of ebselen.

During the early postnatal period the brain is extremely sensitive to external agents. Here, we examined the effect of subcutaneous injections of methylmercury (MeHg; 2 mg/kg) during the suckling period (postnatal days [PND] 3-10, 3-17, or 3-24) on glutamate release from brain synaptosomal preparations and on glutamate uptake by brain cortical slices of rat pups. The possible antagonist effect of ebselen against MeHg effect was also examined at PND 24. MeHg increased the basal (but not K+-stimulated) glutamate release and glutamate uptake at PND 24. A strong tendency of increase in the basal glutamate release from synaptosomes (p= 0.088) was observed at PND 17. Ebselen, which did not affect glutamate release and uptake per se, prevented both effects of MeHg. This study indicates that (1) the effect of MeHg on glutamate release could be involved in its toxicity; (2) the increase in the glutamate uptake could represent a pathophysiological response to MeHg-induced glutamate release; (3) the inhibitory effect of ebselen on MeHg-induced glutamate release could be related to its reported neuroprotective effects.