Selective dysfunction of basal ganglia subterritories: From movement to behavioral disorders

ABSTRACT Historically, Parkinson's disease (PD) was defined as a pure movement disorder. Currently, it is widely accepted that this disease is also characterized by nonmotor signs, such as depression, apathy, and anxiety. On the other hand, the consideration of Gilles de la Tourette syndrome (G...

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Published in:Movement disorders 2015-08, Vol.30 (9), p.1155-1170
Main Authors: Tremblay, Léon, Worbe, Yulia, Thobois, Stéphane, Sgambato-Faure, Véronique, Féger, Jean
Format: Article
Language:English
Subjects:
Animals
basal ganglia
Basal Ganglia - pathology
Basal Ganglia - physiopathology
deep brain stimulation
dopamine
dopamine dysregulation syndrome
dyskinesia
fast spiking interneurons
GABA inhibition
Humans
impulse control disorders
Mental Disorders - pathology
Movement disorders
Movement Disorders - pathology
MPTP
Nerve Net - pathology
nonhuman primate
pallidum
Parkinson's disease
serotonin
striatum
Tourette's syndrome
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Summary:ABSTRACT Historically, Parkinson's disease (PD) was defined as a pure movement disorder. Currently, it is widely accepted that this disease is also characterized by nonmotor signs, such as depression, apathy, and anxiety. On the other hand, the consideration of Gilles de la Tourette syndrome (GTS) as a neuropsychiatric disorder has also been debated. In this review, we will focus on these two disorders, which combine both motor and behavioral features and in which dysfunction of cortical and subcortical regions was suggested. Anatomical, experimental, and clinical data are reported to support the involvement of basal ganglia (BG) in cognitive and motivational functions in addition to motor control. In PD, the nonmotor signs could result from the heterogeneity of dopaminergic lesions and excessive activation of the dopamine receptors, particularly within the limbic neuronal networks. Experimental results obtained on nonhuman primates using local disinhibition within functional territories of BG allowed the precise mapping of their motor and nonmotor functions. Thus, impairment of inhibitory control inside specific striatal territories induced behavioral disorders and abnormal movements, which had striking similarities to clinical expressions of GTS. Establishing such a relationship between BG subterritories and motor and behavioral disorders could potentially be helpful for future target choices for DBS in many neuropsychiatric disorders. Furthermore, it is also of great interest for therapeutic research and for the efficient targeting of symptom relief to determine the precise pharmacological effects of the two main modulators of BG function, which are dopamine and serotonin. © 2015 International Parkinson and Movement Disorder Society
ISSN:0885-3185
1531-8257
DOI:10.1002/mds.26199