CB1R signaling and behaviors (antinociception, hypothermia, catalepsy) were assessed in 尾-arrestin2-knockout (尾arr2-KO) and wild-type mice after THC administration. Cannabinoid-stimulated [35S]GTP纬S and [3H]ligand autoradiography were assessed by statistical parametric mapping and region-of-interest analysis.
尾-arrestin2 deletion increased CB1R-mediated G-protein activity in subregions of the cortex but did not affect CB1R binding, in vehicle-treated mice. 尾arr2-KO mice exhibited enhanced acute THC-mediated antinociception and hypothermia, with no difference in catalepsy. After repeated THC administration, 尾arr2-KO mice showed reduced CB1R desensitization and/or downregulation in cerebellum, caudal periaqueductal gray, and spinal cord and attenuated tolerance to THC-mediated antinociception. In contrast, greater desensitization was found in hypothalamus, cortex, globus pallidus, and substantia nigra of 尾arr2-KO compared with wild-type mice. Enhanced tolerance to THC-induced catalepsy was observed in 尾arr2-KO mice.
尾-arrestin2 regulation of CB1R signaling following acute and repeated THC administration was region-specific, and results suggest that multiple, overlapping mechanisms regulate CB1Rs. The observations that 尾arr2-KO mice display enhanced antinociceptive responses to acute THC and decreased tolerance to the antinociceptive effects of the drug, yet enhanced tolerance to catalepsy, suggest that development of cannabinoid drugs that minimize CB1R interactions with 尾-arrestin2 might produce improved cannabinoid analgesics with reduced motor suppression.