Preclinical Testing of Novel Oxytocin Receptor Activators in Models of Autism Phenotypes

Abstract

Currently, there are no established pharmaceutical strategies that effectively treat core autism spectrum disorder (ASD) symptoms, includingpervasive social deficits and repetitive behaviors. The oxytocin pathway has an important role in normal human social behaviors, and oxytocindysregulation has been implicated in ASD-associated behavioral symptoms. There is now emerging evidence that oxytocin has therapeutic efficacyin ameliorating core ASD symptoms associated with social behavior. However, from the standpoint of drug discovery, oxytocin is a poor candidate asa standard clinical treatment. Oxytocin is rapidly metabolized and has low brain penetrance with peripheral administration. The goal of the proposedstudies is to discover new small-molecule compounds that enhance oxytocin signaling, as novel drug interventions for social deficits and abnormalrepetitive behavior relevant to ASD. In this third year, we have extended our published findings that oxytocin can effectively overcome representativeASD phenotypes in two mouse lines that model ASD-like behaviors, including overt alterations in social behavior, and we have confirmed theseeffects in a genetic model of social impairment, the Grin1 knockdown mouse. We have also evaluated one synthetic oxytocin agonist, Compound 39,and one oxytocin metabolite, for efficacy against social deficits in BALB/cByJ mice, and we are currently evaluating a second oxytocin metabolite forprosocial effects. Overall, we have successfully validated three mouse models as preclinical screens for compounds targeting the oxytocin receptor,and provided leads for a drug discovery campaign for social deficits and other core autism symptoms.

Document Details

Document Type

Technical Report

Publication Date

Nov 01, 2015

Accession Number

AD1003024

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