1. Vaporized Cannabis Extracts Have Reinforcing Properties and Support Conditioned Drug-Seeking Behavior in Rats.
- Author
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Freels, Timothy G., Baxter-Potter, Lydia N., Lugo, Janelle M., Glodosky, Nicholas C., Wright, Hayden R., Baglot, Samantha L., Petrie, Gavin N., Zhihao Yu, Clowers, Brian H., Cuttler, Carrie, Fuchs, Rita A., Hill, Matthew N., and McLaughlin, Ryan J.
- Subjects
DRUG-seeking behavior ,MARIJUANA ,INGESTION ,DRUG administration ,ANIMAL models in research ,DOPAMINE antagonists - Abstract
Recent trends in cannabis legalization have increased the necessity to better understand the effects of cannabis use. Animal models involving traditional cannabinoid self-administration approaches have been notoriously difficult to establish and differences in the drug used and its route of administration have limited the translational value of preclinical studies. To address this challenge in the field, we have developed a novel method of cannabis self-administration using response-contingent delivery of vaporized A9-tetrahydrocannabinol-rich (CAN
THC ) or cannabidiol-rich (CANCBD ) whole-plant cannabis extracts. Male Sprague-Dawley rats were trained to nose-poke for discrete puffs of CANth c, CANcbd, or vehicle (VEH) in daily 1 h sessions. Cannabis vapor reinforcement resulted in strong discrimination between active and inactive operanda. CANTHC maintained higher response rates under fixed ratio schedules and higher break points under progressive ratio schedules compared with CANCBD or VEH, and the number of vapor deliveries positively correlated with plasma THC concentrations. Moreover, metabolic phenotyping studies revealed alterations in locomotor activity, energy expenditure, and daily food intake that are consistent with effects in human cannabis users. Furthermore, both cannabis regimens produced ecologically relevant brain concentrations of THC and CBD and CANTHC administration decreased hippocampal CB1 receptor binding. Removal of CANthc reinforcement (but not CANCBD ) resulted in a robust extinction burst and an increase in cue-induced cannabis-seeking behavior relative to VEH. These data indicate that volitional exposure to THC-rich cannabis vapor has bona fide reinforcing properties and collectively support the utility of the vapor self-administration model for the preclinical assessment of volitional cannabis intake and cannabis-seeking behaviors. [ABSTRACT FROM AUTHOR]- Published
- 2020
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