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Abstract
Background
Previous studies suggest that cannabidiol (CBD) may potentiate or antagonize Δ9-tetrahydrocannabinol’s (THC) effects. The current study examined sex differences in CBD modulation of THC-induced antinociception, hypolocomotion, and metabolism.
Methods
In Experiment 1, CBD (0, 10 or 30 mg/kg) was administered 15 min before THC (0, 1.8, 3.2, 5.6 or 10 mg/kg), and rats were tested for antinociception and locomotion 15–360 min post-THC injection. In Experiments 2 and 3, CBD (30 mg/kg) was administered 13 h or 15 min before THC (1.8 mg/kg); rats were tested for antinociception and locomotion 30–480 min post-THC injection (Experiment 2), or serum samples were taken 30–360 min post-THC injection to examine CBD modulation of THC metabolism (Experiment 3).
Results
In Experiment 1, CBD alone produced no antinociceptive effects, while enhancing THC-induced paw pressure but not tail withdrawal antinociception 4–6 h post-THC injection. CBD alone increased locomotor activity at 6 h post-injection, but enhanced THC-induced hypolocomotion 4–6 h post-THC injection, at lower THC doses. There were no sex differences in CBD-THC interactions. In Experiments 2 and 3, CBD did not significantly enhance THC’s effects when CBD was administered 13 h or 15 min before THC; however, CBD inhibited THC metabolism, and this effect was greater in females than males.
Conclusions
These results suggest that CBD may enhance THC’s antinociceptive and hypolocomotive effects, primarily prolonging THC’s duration of action; however, these effects were small and inconsistent across experiments. CBD inhibition of THC metabolism as well other mechanisms likely contribute to CBD-THC interactions on behavior.
