Intra-putaminal muscarinic receptor agonist infusion induces a dystonic phenotype in non-human primate

Abstract
Dystonia is a debilitating motor disorder of unclear pathophysiology for which no specific pharmacological treatment is available in most cases. So far, several genetic models of dystonia suggesting a potential dysregulation of the intrastriatal cholinergic system have been obtained in rodents. However, in most cases, these animals did not exhibit a clear phenotype of dystonia but less specific motor impairments.
In this study, we engineered an original model of dystonia in non-human primates (NHPs) by increasing cholinergic tone in the sensorimotor striatum.
Chronic infusion of Oxotremorine (OT), a non-selective muscarinic agonist, into the putamen of NHPs led to abnormal postures and dystonic movements, supported by electromyographic recordings. These motor abnormalities were associated with striatal hypermetabolism and significant changes in the firing rate of external and internal pallidum neurons. Furthermore, the pattern of neuronal activity in the internal pallidum was disrupted and low-frequency oscillatory activity emerged in local field potentials within this structure.
This data directly demonstrates for the first time in NHPs that putaminal cholinergic dysregulation plays a critical role in the pathophysiology of dystonia by disrupting both striato-pallidal pathways.

Auteurs Bordeaux Neurocampus