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Deep brain stimulation alleviates tics in Tourette syndrome via striatal dopamine transmissionopen access

Authors
Rusheen, Aaron E.Rojas-Cabrera, JuanGoyal, AbhinavShin, HojinYuen, JasonJang, Dong-PyoBennet, Keven E.Blaha, Charles D.Lee, Kendall H.Oh, Yoonbae
Issue Date
Oct-2023
Publisher
Oxford University Press
Keywords
DBS; Tourette syndrome; dopamine; electrochemistry; electrophysiology
Citation
Brain, v.146, no.10, pp 4174 - 4190
Pages
17
Indexed
SCIE
SCOPUS
Journal Title
Brain
Volume
146
Number
10
Start Page
4174
End Page
4190
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/211045
DOI
10.1093/brain/awad142
ISSN
0006-8950
1460-2156
Abstract
Parafascicular nucleus deep brain stimulation is an effective treatment for medically refractory Tourette syndrome. Using an animal model of the disease, Rusheen et al. show that deep brain stimulation reduces motor tics via enhanced striatal dopamine activity at D2 receptors. Tourette syndrome is a childhood-onset neuropsychiatric disorder characterized by intrusive motor and vocal tics that can lead to self-injury and deleterious mental health complications. While dysfunction in striatal dopamine neurotransmission has been proposed to underlie tic behaviour, evidence is scarce and inconclusive. Deep brain stimulation (DBS) of the thalamic centromedian parafascicular complex (CMPf), an approved surgical interventive treatment for medical refractory Tourette syndrome, may reduce tics by affecting striatal dopamine release. Here, we use electrophysiology, electrochemistry, optogenetics, pharmacological treatments and behavioural measurements to mechanistically examine how thalamic DBS modulates synaptic and tonic dopamine activity in the dorsomedial striatum. Previous studies demonstrated focal disruption of GABAergic transmission in the dorsolateral striatum of rats led to repetitive motor tics recapitulating the major symptom of Tourette syndrome. We employed this model under light anaesthesia and found CMPf DBS evoked synaptic dopamine release and elevated tonic dopamine levels via striatal cholinergic interneurons while concomitantly reducing motor tic behaviour. The improvement in tic behaviour was found to be mediated by D-2 receptor activation as blocking this receptor prevented the therapeutic response. Our results demonstrate that release of striatal dopamine mediates the therapeutic effects of CMPf DBS and points to striatal dopamine dysfunction as a driver for motor tics in the pathoneurophysiology of Tourette syndrome.
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GRADUATE SCHOOL OF BIOMEDICAL SCIENCE AND ENGINEERING (서울 생체의공학과)
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