, 2010) The occurrence of seizures affects astrocytes functions

, 2010). The occurrence of seizures affects astrocytes functions generating abnormal glutamatergic and GABAergic neurotransmission activities, which precedes neuronal death (Kang et al., 2006). Accordingly, it has been shown that kainate treatment caused detectable cell damage 72 h after seizures, in 10 days old rats (Dunleavy et al., 2010). The hippocampal damage can also be observed in other seizure models in 15 days old animals (de Oliveira et al., 2008, Sankar et al., 1998 and Sperber INCB024360 research buy et al., 1999). In our study, astrogliosis was present in the hippocampus 24 h after seizures, with no evident

signs of neuronal damage; however, it cannot be discarded the occurrence of neuronal damage after this time. The ontogenetic profile of glutamate transporters levels observed in our findings is in agreement with previous data (Ullensvang et al., 1997, Bar-Peled et al., 1997 and Furuta et al., 1997), since GLT-1 and GLAST levels increased, whereas EAAC1 decreased in adult animals. Interestingly, seizures at 7-day old did not modify the immunocontent of glutamate transporters in the adulthood. It has been reported that patients with medical intractable

mesial temporal lobe epilepsy (MTLE) present deficiency in the hippocampal glutamine synthetase (GS) Eid et al., 2004. Likewise, animals treated with methionine sulfoximine, which leads to deficiency in the GS activity, presented recurrent seizures, hippocampal atrophy and neuronal loss (Eid et al., 2008). ABT-199 in vivo These findings suggest that GS may play a role in the

pathogenesis of MTLE that could contribute to glutamate accumulation observed in this condition. In our study, GS hippocampal levels were not affected by kainate-induced seizures. Even though the short-term alterations in the hippocampal glutamatergic parameters were not persistent over time, in adulthood the rats presented anxiety-related behavior and memory decline in an inhibitory avoidance task. Behavioral alterations caused by kainate-induced seizure were investigated in other studies. The performance in behavioral tasks was analyzed using different paradigms, Etomidate and they indicated that poor memory performance is observed in adulthood after seizure (Cognato et al., 2010, Cornejo et al., 2007, Cornejo et al., 2008 and Sun et al., 2009). These behavioral findings were related to synaptic alterations, such as reduction of synaptic proteins SNAP-25, syntaxin, PSD-95 and NMDA receptor (Cognato et al., 2010 and Sun et al., 2009). In our study, besides memory impairment, we also observed anxiety-like behavior in adulthood after seizure episode, although we recognize that this is not a common finding compared to other studies (Cognato et al., 2010 and Cornejo et al., 2008).

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