Using brain microdialysis, acetylcholine (Ach) levels were assessed in the nucleus amygdaloideus lateralis of electrically kindled rats using a cholinesterase inhibitor in the perfusion fluid to prevent Ach breakdown. During kindling development, when the animals displayed afterdischarges lasting more than 30 s but no seizures, a significant increase in Ach levels (+66%) was observed after electrical stimulation. Ach levels were also elevated after a stage 5 kindled seizure (+48%), with no additional increment compared to rats experiencing only afterdischarges. Chronic diazepam administration prevented kindling development and the increment in Ach overflow; however, diazepam itself (following acute administration) tended to decrease Ach levels in the amygdala. These findings are convergent with pharmacological data suggesting that changes in the cholinergic function may be important especially during amygdaloid kindling development.