Abstract
Experimental evidence indicates that cannabidiol (CBD) induces anxiolytic and antiepileptic effects through the activation of 5-HT1A receptors. These receptors are coupled to Gi/o proteins and induce inhibitory effects. At present, the interaction of CBD with 5-HT1A receptors in the human brain is unknown. The aim of this study focused on evaluating the interaction between CBD and 5-HT1A receptors in cell membranes obtained from the hippocampus and temporal neocortex of autopsies and patients with drug-resistant mesial temporal lobe epilepsy (DR-MTLE). Cell membranes were isolated from the hippocampus and temporal neocortex of a group of patients with DR-MTLE who were submitted to epilepsy surgery (n = 11) and from a group of autopsies (n = 11). The [3H]-8-OH-DPAT binding assay was used to determine the pharmacological interaction of CBD with 5-HT1A receptors. The [35S]-GTPγS assay was used to investigate the CBD-induced activation of Gi/o proteins through its action on 5-HT1A receptors.The CBD affinity (pKi) for 5-HT1A receptors was similar for autopsies and patients with DR-MTLE (hippocampus: 4.29 and 4.47, respectively; temporal neocortex: 4.67 and 4.74, respectively). Concerning the [35S]-GTPγS assay, no statistically significant changes were observed for both hippocampal and neocortical tissue (p > 0.05) at low CBD concentrations (1 pM to 10 μM). In contrast, at high concentrations (100 μM), CBD reduced the constitutive activity of Gi/o proteins of autopsies and DR-MTLE patients (hippocampus: 39.2% and 39.6%, respectively; temporal neocortex: 35.2% and 24.4%, respectively). These changes were partially reversed in the presence of WAY-100635, an antagonist of 5-HT1A receptors, in the autopsy group (hippocampus, 59.8%, p < 0.0001; temporal neocortex, 71.5%, p < 0.0001) and the group of patients with DR-MTLE (hippocampus, 53.7%, p < 0.0001; temporal neocortex, 68.5%, p < 0.001). Our results show that CBD interacts with human 5-HT1A receptors of the hippocampus and temporal neocortex. At low concentrations, the effect of CBD upon Gi/o protein activation is limited. However, at high concentrations, CBD acts as an inverse agonist of 5-HT1A receptors. This effect could modify neuronal excitation and epileptic seizures in patients with DR-MTLE.
Highlights
Cannabidiol (CBD), the main non-psychoactive component of Cannabis plants (Russo, 2017), has a terpenophenolic structure hydroxylated at carbons 1 and 3 (Jones et al, 1977)
The aim of this study focused on evaluating the interaction of CBD with 5-HT1A receptors in cell membranes obtained from the hippocampus and temporal neocortex of patients with drug-resistant mesial TLE (DRMTLE)
The radioligand displacement assay on the hippocampal tissue of patients with drug-resistant mesial temporal lobe epilepsy (DR-MTLE) revealed similar values (IC50 = 93.61 ± 18.25 μM, p = 0.1194; pKi = 4.47 ± 0.09, p = 0.0748) as those observed in the autopsies
Summary
Cannabidiol (CBD), the main non-psychoactive component of Cannabis plants (Russo, 2017), has a terpenophenolic structure hydroxylated at carbons 1 and 3 (Jones et al, 1977). In cultured Chinese hamster ovary (CHO) cells expressing 5-HT1A receptors, CBD showed micromolar affinity in displacing [3H]-8-OH-DPAT from 5-HT1A receptors, increased [35S]-GTPγS binding in this Gi/o protein-coupled receptor, and reduced cAMP concentration. According to these results, the authors concluded that CBD behaves as an agonist of 5-HT1A receptors (Russo et al, 2005). These effects were not reproduced when cell membranes obtained from rat brainstem were exposed to CBD This phytocannabinoid enhanced the ability of 8-OH-DPAT, an agonist of 5-HT1A receptors, to stimulate [35S]-GTPγS binding. These results suggest that CBD shows an allosteric interaction with 5-HT1A receptors (Rock et al, 2012)
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