ABSTRACT␣5IA is a compound that binds with equivalent subnanomolar affinity to the benzodiazepine (BZ) site of GABA A receptors containing an ␣1, ␣2, ␣3, or ␣5 subunit but has inverse agonist efficacy selective for the ␣5 subtype. As a consequence, the in vitro and in vivo effects of this compound are mediated primarily via GABA A receptors containing an ␣5 subunit. In a mouse hippocampal slice model, ␣5IA significantly enhanced the burst-induced long-term potentiation of the excitatory postsynaptic potential in the CA1 region but did not cause an increase in the paroxysmal burst discharges that are characteristic of convulsant and proconvulsant drugs. These in vitro data suggesting that ␣5IA may enhance cognition without being proconvulsant were confirmed in in vivo rodent models. Hence, ␣5IA significantly enhanced performance in a rat hippocampaldependent test of learning and memory, the delayed-matchingto-position version of the Morris water maze, with a minimum effective oral dose of 0.3 mg/kg, which corresponded to a BZ site occupancy of 25%. However, in mice ␣5IA was not convulsant in its own right nor did it potentiate the effects of pentylenetetrazole acutely or produce kindling upon chronic dosing even at doses producing greater than 90% occupancy. Finally, ␣5IA was not anxiogenic-like in the rat elevated plus maze nor did it impair performance in the mouse rotarod assay. Together, these data suggest that the GABA A ␣5-subtype provides a novel target for the development of selective inverse agonists with utility in the treatment of disorders associated with a cognitive deficit.Agonists at the benzodiazepine (BZ) binding site of the GABA A receptor, such as diazepam, enhance the inhibitory effects of GABA and have been used as anxiolytics and hypnotics for more than 40 years (Argyropoulos and Nutt, 1999). In addition, they have therapeutic utility in inducing not only sedation and muscle relaxation but also amnesia before surgical procedures (Williams and Bowie, 1999). Although the amnesic effects of BZ agonists in animals and humans have been known for some time (Ghoneim and Mewaldt, 1990), the precise nature of the processes underlying these effects are still uncertain. Since the anterograde rather than retrograde amnesia (McNaughton and Morris, 1987) produced by BZ agonists is similar to deficits induced by hippocampal lesions in animals and humans, it has been suggested that these drugs may exert their amnesic effects by modulating hippocampal function.At present, 19 GABA A receptor subunits have been identified (␣1-␣6, 1-3, ␥1-␥3, ␦, ⑀, , 1-3, and ; Simon et al.,
