Roles of neurotransmitter amino acids in seizure severity and experience in the genetically epilepsy-prone rat

Abstract

This investigation was designed to compare seizure-naive and seizure-experienced genetically epilepsy-prone rats (GEPRs) in order to distinguish transmitter amino acid changes related to seizure severity from those associated with seizure experience. Moderate (GEPR-3) and severe (GEPR-9) seizure male GEPRs were divided into seizure-naive and seizure-experienced groups based on whether seizure-inducing acoustical stimuli had been presented between 45 and 60 days of age, and then were sacrificed at 76 ± 3 days. γ-Aminobutyric acid (GABA) concentrations were lower in both GEPR-3s and GEPR-9s compared to non-epileptic controls in each brain region examined. Aspartate content was elevated in 5 of 6 brain areas in GEPR-9s compared to non-epileptic controls, and in 3 regions was higher in GEPR-9s than in GEPR-3s. In contrast, taurine concentrations were higher in GEPR-3s than in non-epileptic controls in each region, and in 4 areas were higher in GEPR-3s than in GEPR-9s. Changes resulting from seizure experience consisted of increases in aspartate, glutamate and glycine in seizure-experienced compared to seizure-naive groups in inferior colliculus and in motor-sensory and frontal cortices. These findings suggest that the high levels of taurine in GEPR-3s and the elevated content of aspartate in GEPR-9s have roles as determinants of seizure severity. The low concentrations of GABA in both types of GEPRs are consistent with a role for this amino acid in determination of seizure susceptibility. Furthermore, the seizure-induced changes in aspartate and glutamate in both types of GEPRs support the concept that these excitatory amino acids mediate changes in seizure predisposition. The current results are in agreement with previous studies indicating that imbalances in neurotransmitter amino acids are important factors in determinig seizure behavior in the GEPR.