Abstract
Introduction: We recently uncovered a signaling mechanism by which the endocannabinoid anandamide mediates the action of oxytocin, a neuropeptide that is crucial for social behavior, to control social reward. Oxytocin signaling has been implicated in autism spectrum disorder (ASD), and social reward is a key aspect of social functioning that is thought to be disrupted in ASD. Therefore, as a proof of principle for the core component of ASD-social impairment-we tested an endocannabinoid-enhancing compound on two widely studied mouse models of ASD, the BTBR and fmr1(-/-) (model of Fragile X Syndrome). Methods: We used the established three-chambered social approach test. We specifically increased the activity of anandamide by administering the compound URB597, a selective inhibitor of fatty acid amide hydrolase (FAAH), the hydrolytic enzyme for anandamide. Results: Remarkably, we found that FAAH blockade completely reversed the social impairment in both mouse models. CB(1) receptor blockade prevented the prosocial action of FAAH inhibition in BTBR mice. These results were likely independent of effects on anxiety, as FAAH inhibition did not alter the performance of BTBR mice in the elevated plus maze. Conclusions: The results suggest that increasing anandamide activity at CB(1) receptors improves ASD-related social impairment and identify FAAH as a novel therapeutic target for ASD.