Céline Guigoni scite author profile

Although supersensitivity of D 2 receptors is expected when parkinsonism is first apparent, the first L-dopa dose administered does not generally induce dyskinesia, but dyskinesia develops gradually over time.7 Accordingly, the D 2 /D 3 receptor agonists exert an antiparkinsonian effect with a reduced propensity to elicit dyskinesia when administered de novo in PD patients. 8 There is some evidence that D 1 messenger RNA (mRNA) levels are increased after dopaminergic treatment of the DA-depleted striatum in animal models of LID 9 ; that downstream signal transduction cascades is abnormal in LID, 10,11 including increased phosphorylation of cAMP-regulated phosphoprotein of 32kDa 12 ; and that an altered subcellular localization of D 1 receptors is involved in LID. 13 Moreover, a DA D 1 receptor agonist with proven antiparkinsonian action 14 induced LID similar to that induced by L-dopa in PD patients, 15 further suggesting that D 1 supersensitivity plays a key role in LID occurrence. Together, these observations call for a reassessment of the changes affecting D 1 and D 2 DA receptors in LID.In this study, taking advantage of a nonhuman primate (NHP) brain bank constituted to study the pathophysiology of LID, 16 we determined changes affecting D 1 and D 2 DA receptors within the striatum of four experimental groups: normal, parkinsonian, parkinsonian chronically treated with L-dopa without exhibiting dyskinesia, and parkinsonian chronically treated with L-dopa that shows overt dyskinesia. We show that LIDs are linked to a modification of both D 1 receptor expression and sensitivity of the D 1 -signaling cascade, reinforcing the hypothesis of the pivFrom the

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Altered D1 dopamine receptor trafficking in parkinsonian and dyskinetic non-human primates

Guigoni

Doudnikoff

et al. 2007

Neurobiology of Disease

128

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Enhanced Preproenkephalin-B–Derived Opioid Transmission in Striatum and Subthalamic Nucleus Converges Upon Globus Pallidus Internalis in L-3,4-dihydroxyphenylalanine–Induced Dyskinesia

Aubert

Guigoni

et al. 2007

Biological Psychiatry

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Céline Guigoni

Increased D₁ dopamine receptor signaling in levodopa‐induced dyskinesia

Altered D1 dopamine receptor trafficking in parkinsonian and dyskinetic non-human primates

Enhanced Preproenkephalin-B–Derived Opioid Transmission in Striatum and Subthalamic Nucleus Converges Upon Globus Pallidus Internalis in L-3,4-dihydroxyphenylalanine–Induced Dyskinesia

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Céline Guigoni

Increased D1 dopamine receptor signaling in levodopa‐induced dyskinesia

Altered D1 dopamine receptor trafficking in parkinsonian and dyskinetic non-human primates

Enhanced Preproenkephalin-B–Derived Opioid Transmission in Striatum and Subthalamic Nucleus Converges Upon Globus Pallidus Internalis in L-3,4-dihydroxyphenylalanine–Induced Dyskinesia

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Increased D₁ dopamine receptor signaling in levodopa‐induced dyskinesia