Rationale: The results of recent in vitro studies have underscored the important role that activation of CB(1) receptors has on GABAergic activity in brain areas associated with memory.
Objectives: The primary purpose of this study was to test the hypothesis that the memory disruptive effects of Delta(9)-tetrahydrocannabinol (Delta(9)-THC) in vivo are mediated through GABAergic systems. Conversely, we also evaluated whether blocking CB(1) receptor signaling would alter memory deficits elicited by GABA agonists.
Methods: The GABA(A) antagonist bicuculline and GABA(B) antagonist CGP 36742 were evaluated for their ability to ameliorate Delta(9)-THC-induced deficits in a mouse working memory Morris water maze task. Mice were also assessed in a T-maze task, as well as non-cognitive behavioral assays. Additionally, the effects of GABA(A) and GABA(B) agonists were assessed in either CB(1) (-/-) mice or wild type mice treated with the CB(1) antagonist SR 141716.
Results: Memory deficits resulting from 10 mg/kg Delta(9)-THC in the Morris water maze were completely reversed by bicuculline, though unaffected by CGP 36742. Bicuculline also blocked the disruptive effects of Delta(9)-THC in the T-maze, but failed to alter non-mnemonic effects of Delta(9)-THC. Although CB(1) (-/-) mice exhibited supersensitivity to muscimol-induced water maze deficits compared with wild type control mice, muscimol elicited virtually identical effects in SR 141716-treated and vehicle-treated wild type mice.
Conclusions: This is the first demonstration of which we are aware showing that GABA(A) receptors may play a necessary role in Delta(9)-THC-induced memory impairment in whole animals.