Estrogen treatment protects GABAB inhibition in the dentate gyrus of female rats after kainic acid-induced status epilepticus

Purpose: We used the paired-pulse inhibition paradigm to determine whether the cell loss in the hilus of the dentate gyrus of female rats after kainic acid (KA)-induced status epilepticus (SE) is associated with functional changes in the dentate gyrus. Additionally, we determined whether the lost function could be preserved by using estrogen neuroprotection. Methods: Female rats were ovariectomized and treated either with estrogen replacement (four doses of 2 mug of estradiol every 24 h: two doses before SE, two doses after) or oil. SE was induced by I.P. administration of KA (16 mg/kg) and terminated after 5 It with pentobarbital. After 2 days, hippocampal/dentate gyrus slices were prepared. Population spikes were recorded in the granule cell layer as a response to mixed perforant-path stimulation (10- to 1,000-ms interstimulus intervals). Ratios of the test response to conditioning response were evaluated. gamma-Aminobutyric acid type B (GABA,) receptors were blocked with 400 muM CGP 35348. Results: In slices from oil-treated rats, SE induced a loss of paired-pulse inhibition in the dentate gyrus at the interstimulus intervals marking intermediate facilitation and late depression. There was no such loss of paired-pulse inhibition in estrogen-treated rats. CGP 35348 was unable to alter paired-pulse inhibition in slices form oil-treated rats. In slices from estrogen-treated rats, CGP decreased paired-pulse inhibition at 50-150-ms interstimulus intervals. Comparison of paired-pulse inhibition in slices from oil-treated rats with slices from estrogen-treated rats with CGP 35348 revealed a GABA(B)-independent difference at interstimulus intervals >300 ms. Conclusions: Our study demonstrated that there is a complete loss of GABA(B) receptor-mediated inhibition after KA-induced SE in the dentate gyrus. Pretreatment with estrogen can save GABA(B)-receptor function, probably by neuroprotection of neurons containing the postsynaptic GABAB receptors.