Primary somatosensory cortex CB1 and 5‑HT1A receptors interaction in the penicillin model of epilepsy.

Cannabinoid and serotonin systems regulate many biological processes. The aim of the present study was to investigate the functional interaction between the cannabinoid and serotonergic systems of the primary somatosensory region (S1) of the brain in epileptiform activity caused by penicillin. The ACEA (an agonist of CB1 receptor), AM‑251 (an antagonist of CB1 receptor), 8‑OH‑DPAT (an agonist of 5‑HT1A receptor) and WAY‑100635 (an antagonist of 5‑HT1A receptor) were administered into the S1 after the same site administration of penicillin in urethane‑anesthetized rats. Electrocorticographic recording was done for a 90‑min period. The spike waves number and amplitude were recorded in 15‑min intervals. Areas under the curve (AUC) of the above‑mentioned spike alterations was calculated in 90 min. Spike waves with frequency of 30/min and amplitude of 1.3 mV were appeared after penicillin microinjection. The ACEA (50 ng), 8‑OH‑DPAT (500 ng) and ACEA (10 ng) plus 8‑OH‑DPAT (100 ng) reduced epileptiform activity. The AM‑251 (50 ng) and WAY‑100365 (500 ng) prevented the reducing effects of ACEA (50 ng) and 8‑OH‑DPAT (500 ng). The AM‑251 alone increased spike waves frequency. The AUC results supported the effects of the above‑mentioned treatments. The results showed that activating CB1 and 5‑HT1A receptors in the S1 may reduce the epileptiform activity caused by penicillin. Therefore, alone and together activation of central CB1 and 5‑HT1A receptors might be considered in the management of epilepsy treatment.