Cannabichromene from full-spectrum hemp extract exerts acute anti-seizure effects through allosteric activation of GABA receptors.

The approval of Epidiolex, an anti-epileptic drug containing cannabidiol (CBD) as its active component, has brought hope to patients with refractory epilepsy. However, the anti-seizure effect of full-spectrum hemp extract (HE), a CBD-enriched hemp oil, remains unclear. In this study, we investigated the anti-seizure effect of HE using drug-induced seizure models. Our findings revealed that HE significantly reduced seizure susceptibility comparable to CBD at the same doses. Moreover, we explored the pharmacokinetic properties of CBD in HE and observed improved characteristics such as faster oral absorption, enhanced brain distribution, and slower elimination. We further assessed the anti-seizure effects of the other five main non-addictive components in HE. Among these components, cannabichromene (CBC) and cannabinol (CBN) showed significant anti-seizure effects. To gain insights into the mechanisms of CBC and CBN, we investigated their allosteric modulation on the GABA receptor. Our results revealed that CBC enhanced GABA-induced currents in both Xenopus laevis oocytes and mouse primary cortical neurons. Additionally, we identified V436 in the β2 subunit of the GABA receptor as a critical binding site for CBC. These findings provide compelling evidence for the anti-seizure activities of HE and shed light on its underlying mechanisms. Our study provides insights into the broader therapeutic potential of hemp extracts and suggests their possible development as anti-seizure treatments.