Abnormal hyperactivity of specific striatal ensembles encodes distinct dyskinetic behaviors revealed by high-resolution clustering

Abstract

L-DOPA-induced dyskinesia (LID) is a debilitating complication of dopamine replacement therapy in Parkinson's disease and the most common hyperkinetic disorder of basal ganglia origin. Abnormal activity of striatal D1 and D2 spiny projection neurons (SPNs) is critical for LID, yet the link between SPN activity patterns and specific dyskinetic movements remains unknown. To explore this, we implemented a data-driven method for clustering movements based on high-resolution motion sensors and video recordings. In a mouse model of LID, this method identified two main dyskinesia types and pathological rotations, all absent during normal behavior. Using single-cell-resolution imaging, we found that specific sets of both D1- and D2-SPNs were abnormally active during these pathological movements. Under baseline conditions, these SPN sets were active during behaviors sharing physical features with LID movements. These findings indicate that ensembles of behavior-encoding D1- and D2-SPNs form new combinations of hyperactive neurons mediating specific dyskinetic features.

Keywords: CP: Neuroscience; IMUs; L-DOPA-induced dyskinesia; behavioral clustering; calcium imaging; freely moving mice; inertial measurement units; motor behavior; parkinson's disease; striatal spiny projection neurons.