The role of GAT-3 transporters in regulating GABA_A receptor-mediated inhibition was examined in the rat neocortex using an in vitro slice preparation. Pharmacologically isolated GABA_A receptor-mediated responses were recorded from layer V neocortical pyramidal cells, and the effects of SNAP-5114, a GAT-3 GABA transporter-selective antagonist, were evaluated. Application of SNAP-5114 resulted in a reversible increase in the amplitude of an evoked GABA_A response in most cells examined, although no effect on the decay time was observed. Examination of the spontaneous output of inhibitory interneurons revealed a reversible increase in the frequency and amplitude of spontaneous inhibitory synaptic currents as a consequence of GAT-3 inhibition. This effect of GAT-3 inhibition on spontaneous inhibitory events was action potential-dependent, since no such increases were seen when SNAP-5114 was applied in the presence of TTX. These results demonstrate that GAT-3 transporters regulate inhibitory interneuron output in the neocortex. The increase in inhibitory interneuron excitability resulting from application of SNAP-5114 suggests that inhibition of GAT-3 transporter function results in a reduction in ambient GABA levels, possibly by a reduction in carrier-mediated GABA release via the GAT-3 transporter.