Electric shock convulsions in the rabbit and brain cortex GABAA receptor function.

The effect of electric shock convulsions (ESC) on the function of brain cortex GABAA receptors has been studied in the rabbit. Three single electroconvulsive shocks (ECS) were given at intervals of 48 hours and the brain cortex was sampled 36 hours after the last shock. The dose-response curve was determined for GABA-stimulated 36Cl-accumulation into brain cortex microsacs. The parameters of the curve (maximal accumulation rate, Ka and Hill coefficient, n) were constant when determined in two different series of experiences. Animals handled in the same way as the animals from the electric shock group but which did not receive the ECSs (sham ECS group) showed similar maximal accumulation rate and Ka. However, the average n coefficient was significantly higher in the electric shock group. Naive animals, taken from their cages just before the sacrifice, showed dose-response curves which varied from one experimental series to another. This last result (confirming previous observations) shows modifications and inconsistencies in the evaluation of GABAA receptor function in stressed handling-naive animals.