The cross-hemispheric nigrostriatal pathway prevents the expression of levodopa-induced dyskinesias

The cross-hemispheric nigrostriatal pathway prevents the expression of levodopa-induced dyskinesias

Parkinson's disease (PD) is a neurodegenerative movement disorder that is routinely treated with levodopa. Unfortunately, long-term dopamine replacement therapy using levodopa leads to levodopa-induced dyskinesias (LID), a significant and disabling side-effect. Clinical findings indicate that L...

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Main Authors: Vishakh Iyer, Kala Venkiteswaran, Sandip Savaliya, Christopher A. Lieu, Erin Handly, Timothy P. Gilmour, Allen R. Kunselman, Thyagarajan Subramanian
Format: Article
Language:English
Published: Elsevier 2021-11-01
Series:Neurobiology of Disease
Subjects:
Dyskinesia
Dopamine
Levodopa
Parkinson's disease
Interhemispheric
Rat
Online Access:http://www.sciencedirect.com/science/article/pii/S0969996121002400
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spelling doaj-6499313cbbb440e385dad1a13f8057b72021-10-07T04:24:08ZengElsevierNeurobiology of Disease1095-953X2021-11-01159105491The cross-hemispheric nigrostriatal pathway prevents the expression of levodopa-induced dyskinesiasVishakh Iyer0Kala Venkiteswaran1Sandip Savaliya2Christopher A. Lieu3Erin Handly4Timothy P. Gilmour5Allen R. Kunselman6Thyagarajan Subramanian7Department of Neurology and Neural and Behavioral Sciences, The Pennsylvania State University College of Medicine, Hershey, PA, United States of AmericaDepartment of Neurology and Neural and Behavioral Sciences, The Pennsylvania State University College of Medicine, Hershey, PA, United States of AmericaDepartment of Neurosurgery, The Pennsylvania State University College of Medicine, Hershey, PA, United States of AmericaDepartment of Neurology and Neural and Behavioral Sciences, The Pennsylvania State University College of Medicine, Hershey, PA, United States of AmericaDepartment of Neurology and Neural and Behavioral Sciences, The Pennsylvania State University College of Medicine, Hershey, PA, United States of AmericaDepartment of Electrical Engineering, John Brown University, Siloam Springs, AR, United States of AmericaDepartment of Public Health Sciences, The Pennsylvania State University College of Medicine, Hershey, PA, United States of AmericaDepartment of Neurology and Neural and Behavioral Sciences, The Pennsylvania State University College of Medicine, Hershey, PA, United States of America; Corresponding author at: Department of Neurology and Neural and Behavioral Sciences, Penn State College of Medicine, 500 University Drive (Rm. C2846), Hershey, PA 17033, United States of America.Parkinson's disease (PD) is a neurodegenerative movement disorder that is routinely treated with levodopa. Unfortunately, long-term dopamine replacement therapy using levodopa leads to levodopa-induced dyskinesias (LID), a significant and disabling side-effect. Clinical findings indicate that LID typically only occurs following the progression of PD motor symptoms from the unilateral (Hoehn and Yahr (HY) Stage I) to the bilateral stage (HY Stage II). This suggests the presence of some compensatory interhemispheric mechanisms that delay the occurrence of LID. We therefore investigated the role of interhemispheric connections of the nigrostriatal pathway on LID expression in a rat model of PD. The striatum of one hemisphere of rats was first injected with a retrograde tracer to label the ipsi- and cross-hemispheric nigrostriatal pathways. Rats were then split into groups and unilaterally lesioned in the striatum or medial forebrain bundle of the tracer-injected hemisphere to induce varying levels of hemiparkinsonism. Finally, rats were treated with levodopa and tested for the expression of LID. Distinct subsets emerged from rats that underwent the same lesioning paradigm based on LID. Strikingly, non-dyskinetic rats had significant sparing of their cross-hemispheric nigrostriatal pathway projecting from the unlesioned hemisphere. In contrast, dyskinetic rats only had a small proportion of this cross-hemispheric nigrostriatal pathway survive lesioning. Crucially, both non-dyskinetic and dyskinetic rats had nearly identical levels of ipsi-hemispheric nigrostriatal pathway survival and parkinsonian motor deficits. Our data suggest that the survival of the cross-hemispheric nigrostriatal pathway plays a crucial role in preventing the expression of LID and represents a potentially novel target to halt the progression of this devastating side-effect of a common anti-PD therapeutic.http://www.sciencedirect.com/science/article/pii/S0969996121002400DyskinesiaDopamineLevodopaParkinson's diseaseInterhemisphericRat
collection DOAJ
language English
format Article
sources DOAJ
author Vishakh Iyer
Kala Venkiteswaran
Sandip Savaliya
Christopher A. Lieu
Erin Handly
Timothy P. Gilmour
Allen R. Kunselman
Thyagarajan Subramanian
spellingShingle Vishakh Iyer
Kala Venkiteswaran
Sandip Savaliya
Christopher A. Lieu
Erin Handly
Timothy P. Gilmour
Allen R. Kunselman
Thyagarajan Subramanian
The cross-hemispheric nigrostriatal pathway prevents the expression of levodopa-induced dyskinesias
Neurobiology of Disease
Dyskinesia
Dopamine
Levodopa
Parkinson's disease
Interhemispheric
Rat
author_facet Vishakh Iyer
Kala Venkiteswaran
Sandip Savaliya
Christopher A. Lieu
Erin Handly
Timothy P. Gilmour
Allen R. Kunselman
Thyagarajan Subramanian
author_sort Vishakh Iyer
title The cross-hemispheric nigrostriatal pathway prevents the expression of levodopa-induced dyskinesias
title_short The cross-hemispheric nigrostriatal pathway prevents the expression of levodopa-induced dyskinesias
title_full The cross-hemispheric nigrostriatal pathway prevents the expression of levodopa-induced dyskinesias
title_fullStr The cross-hemispheric nigrostriatal pathway prevents the expression of levodopa-induced dyskinesias
title_full_unstemmed The cross-hemispheric nigrostriatal pathway prevents the expression of levodopa-induced dyskinesias
title_sort cross-hemispheric nigrostriatal pathway prevents the expression of levodopa-induced dyskinesias
publisher Elsevier
series Neurobiology of Disease
issn 1095-953X
publishDate 2021-11-01
description Parkinson's disease (PD) is a neurodegenerative movement disorder that is routinely treated with levodopa. Unfortunately, long-term dopamine replacement therapy using levodopa leads to levodopa-induced dyskinesias (LID), a significant and disabling side-effect. Clinical findings indicate that LID typically only occurs following the progression of PD motor symptoms from the unilateral (Hoehn and Yahr (HY) Stage I) to the bilateral stage (HY Stage II). This suggests the presence of some compensatory interhemispheric mechanisms that delay the occurrence of LID. We therefore investigated the role of interhemispheric connections of the nigrostriatal pathway on LID expression in a rat model of PD. The striatum of one hemisphere of rats was first injected with a retrograde tracer to label the ipsi- and cross-hemispheric nigrostriatal pathways. Rats were then split into groups and unilaterally lesioned in the striatum or medial forebrain bundle of the tracer-injected hemisphere to induce varying levels of hemiparkinsonism. Finally, rats were treated with levodopa and tested for the expression of LID. Distinct subsets emerged from rats that underwent the same lesioning paradigm based on LID. Strikingly, non-dyskinetic rats had significant sparing of their cross-hemispheric nigrostriatal pathway projecting from the unlesioned hemisphere. In contrast, dyskinetic rats only had a small proportion of this cross-hemispheric nigrostriatal pathway survive lesioning. Crucially, both non-dyskinetic and dyskinetic rats had nearly identical levels of ipsi-hemispheric nigrostriatal pathway survival and parkinsonian motor deficits. Our data suggest that the survival of the cross-hemispheric nigrostriatal pathway plays a crucial role in preventing the expression of LID and represents a potentially novel target to halt the progression of this devastating side-effect of a common anti-PD therapeutic.
topic Dyskinesia
Dopamine
Levodopa
Parkinson's disease
Interhemispheric
Rat
url http://www.sciencedirect.com/science/article/pii/S0969996121002400
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