Cntnap2 loss drives striatal neuron hyperexcitability and behavioral inflexibility.

Abstract

Autism spectrum disorder (ASD) is a neurodevelopmental disorder characterized by two major diagnostic criteria - persistent deficits in social communication and interaction, and the presence of restricted, repetitive patterns of behavior (RRBs). Evidence from both human and animal model studies of ASD suggests that alteration of striatal circuits, which mediate motor learning, action selection, and habit formation, may contribute to the manifestation of RRBs.is a syndromic ASD risk gene, and loss of function ofin mice is associated with RRBs. How the loss ofimpacts striatal neuron function is largely unknown. In this study, we utilizedmice to test whether altered striatal neuron activity contributes to aberrant motor behaviors relevant to ASD. We find thatmice exhibit enhanced cortical drive of direct pathway striatal projection neurons (dSPNs). This enhanced drive is due to increased intrinsic excitability of dSPNs, which make them more responsive to cortical inputs. We find thatmice exhibit spontaneous repetitive behaviors, increased motor routine learning, perseveration, and cognitive inflexibility. Increased corticostriatal drive may therefore contribute to the acquisition of repetitive, inflexible behaviors inmice.