, 1995, Ferrarese et al , 2001 and Spreux-Varoquaux et al , 2002)

, 1995, Ferrarese et al., 2001 and Spreux-Varoquaux et al., 2002). We focused our study on epileptic seizures, particularly SE, since it is not only accompanied by a large increase of Glu in brain fluids but there is also a tight correlation between SE-related brain damage and the development of chronic epilepsy (Olney, 1985, Leite et al., 1990, Cavalheiro et al.,

1991, Lemos and Cavalheiro, 1995 and Fujikawa, 2005). The pilocarpine model is one of the most commonly studied chemical-inductive models for epilepsy (Turski et al., 1983, Turski et al., 1986, Leite et al., 1990, Cavalheiro et al., 1991, Cavalheiro, 1995, Arida et al., 2006 and Curia et al., 2008). Morphological analysis of the brain after pilocarpine-induced SE demonstrates Selleckchem Perifosine that the hippocampal subfield CA1 and the hilus of dentate gyrus are particularly susceptible to neuronal cell loss (Turski et al., 1983 and Turski et al., 1986). Neuronal death occurs mainly by excitoxic injury caused by the activation of glutamatergic pathways in the course of SE (Cavalheiro et al., 1994 and Costa et al., 2004). Staurosporine In the present investigation, SE-induced neuronal loss in CA1 was completely prevented in rats treated with Pyr plus Oxa. Moreover, neuronal damage in the hilus was prevented in rats that received Pyr alone. These results confirm previous studies showing the neuroprotective effect of Pyr

(Izumi et al., 1994, Maus et al., 1999, Monaghan et al., 1989, Lee et al., 2001 and Gonzales-Falcon et al., 2003). This neuroprotective effect is related to the potential of Pyr

and Oxa to activate the blood resident enzymes GTP and GOT which increases the brain-to-blood Glu efflux (O’Kane et al., 1999 and Gottlieb et al., 2003). Other hypothesis for the neuroprotective effect of Pyr and Oxa is related with the capacity of these subtracts to cross hematoencephalic barrier and normalize ATP and NAD+ (Sheline et al., 2000 and Lee et al., 2001). For instance, Oxa can contribute to an improvement of NAD-linked mitochondrial energetics, Sodium butyrate via an enhancement of malate-aspartate shuttle, which increases hydrogen peroxide scavenging (Desagher et al., 1997 and Zlotnik et al., 2007). In our experiments, we did not observe significant neuroprotective effects of Oxa (alone) during pilocarpine-induced SE. In fact our results suggest a neuroprotective effect of Oxa only when it is associated with Pyr. Further experiments must be done in order to test the efficacy of different protocols for Oxa administration in preventing neuronal damage induced by SE. It is noteworthy that the quantitative techniques used here were sufficiently sensitive to detect even small changes in neuron number. Coefficients of error provide a standardized statistic for evaluating the precision of neuron number estimates derived by modern stereological techniques (Slomianka and West, 2005).

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