Tacrine, a potent acetylcholinesterase inhibitor, has been reported to improve cognitive function in patients with Alzheimer's disease. The present investigation was conducted to elucidate in vivo any interaction between tacrine-induced cortical cholinergic hyperactivity and glutamatergic and GABAergic neurotransmission, which might influence the therapeutic potential of tacrine. Seven days after a daily dosage of 10 mg/kg tacrine i.p. quantitative receptor autoradiography was performed in coronal sections throughout the brain. Repeated administration of tacrine resulted in decreased binding to high-affinity choline uptake, nicotinic and M2-muscarinic acetylcholine receptor sites in a number of cortical regions, while reductions in M1-muscarinic receptor binding were restricted to the cingulate and entorhinal cortex as well as caudate-putamen. Moreover, tacrine injections decreased cortical AMPA receptor binding throughout the brain, while NMDA, kainate, and GABAA receptor binding remained unchanged. Tacrine administration alters cortical AMPA receptor binding in the opposite direction to that observed in patients with Alzheimer's disease, suggesting that tacrine may exert a reversal in up/down-regulation of cortical glutamate receptor subtypes in Alzheimer patients. However, the drug-induced reductions in cortical high-affinity choline uptake sites as well as in nicotinic and in muscarinic acetylcholine receptor binding might partially counteract the cognition-enhancing effects of tacrine produced by acetylcholinesterase inhibition.