Behavioral and histological analysis of a partial double‐lesion model of parkinson‐variant multiple system atrophy

Abstract

Multiple system atrophy (MSA) is a neurodegenerative disease with progressive autonomic failure, cerebellar ataxia (MSA-C), and parkinsonism (MSA-P) resulting from neuronal loss in multiple brain areas associated with oligodendroglial cytoplasmic α-synuclein inclusion bodies. No effective treatments exists, and MSA-P patients often fail to respond to L-DOPA because of the loss of striatal dopaminergic receptors. Rendering MSA-P patients sensitive to L-DOPA administration following striatal tissue transplantation has been proposed as a possible novel therapeutic strategy to improve the clinical condition. Here we describes simple, skilled, and sensorimotor behavior deficits in a unilateral partial double-lesion (DL) rat model of MSA-P. The sequential striatal double-lesion model mimicks early MSA-P pathology by combining partial 6-hydroxydopamine (6-OHDA) followed by striatal quinolinic acid (QA) lesion. Animals were tested on spontaneous, learned, or drug-induced behavioral tasks on multiple occasions pre- and postsurgery. The data show robust, lateralized deficits, and the partial 6-OHDA and the double-lesioned animals were most impaired. Importantly, this study identified a behavioral deficit profile unique to the double-lesion animals and distinctive from the single 6-OHDA- or the QA-lesioned animals. Histology confirmed an approximately 40% dopamine loss in the striatum in the 6-OHDA and double-lesion animals as well as a similar loss of striatal projection neurons in the QA and double-lesion animals. In summary, we have established the behavioral deficit profile of a partial double-lesion rat model mimicking the early stage of MSA-P.