The anticonvulsant effect of CO2 was previously demonstrated, although its mechanisms remain unclear. This study investigated the mechanism of the anticonvulsant effects of carbogen containing 5% CO2 in a kainic acid (KA) rat model. Four-week-old Sprague–Dawley rats were divided into four groups: control, carbogen, KA+air, and KA+carbogen. Carbogen was applied immediately after KA injection, and cortical pH was recorded. High-performance liquid chromatography was used to detect the release of γ-aminobutyric acid (GABA) and glutamate. We used electrophysiology to measure cortical and hippocampal activities. Carbogen increased the onset latency of seizure (KA+air group, 26.12 ± 2.11 min; KA+carbogen group 43.65 ± 2.78 min, P < 0.001) and reduced the frequency of seizures (KA+air group, 12.50 ± 1.77; KA+carbogen group, 5.63 ± 1.59, P < 0.001). Carbogen inhalation could reduce cortical pH (KA+air group, 7.04 ± 0.04; KA+carbogen group, 6.82 ± 0.03, P < 0.001). After carbogen inhalation, the levels of excitatory amino acid glutamate decreased (595.90 ± 7.51 in KA+air group vs. 467.95 ± 4.82 in KA+carbogen s group, P < 0.001), whereas GABA increased significantly (158.30 ± 5.05 in KA+air group vs. 216.62 ± 5.59 in KA+carbogen, P < 0.05). Carbogen reduced both electrohippocampalogram (119.57 ± 2.83 in KA+air group vs. 107.48 ± 2.95 in KA+carbogen group, P < 0.01) and electrocorticogram (130.74 ± 2.48 in KA+air group vs. 115.35 ± 2.11 in KA+carbogen group, P < 0.01). These findings demonstrate that carbogen suppressed seizures by reducing cortical pH, by increasing GAGA release, and by affecting electrical activity of the brain.