M. Angela Cenci scite author profile

Long-term treatment with the dopamine precursor levodopa (L-DOPA) induces dyskinesia in Parkinson's disease (PD) patients. We divided hemiparkinsonian rats treated chronically with L-DOPA into two groups: one showed motor improvement without dyskinesia, and the other developed debilitating dyskinesias in response to the treatment. We then compared the plasticity of corticostriatal synapses between the two groups. High-frequency stimulation of cortical afferents induced long-term potentiation (LTP) of corticostriatal synapses in both groups of animals. Control and non-dyskinetic rats showed synaptic depotentiation in response to subsequent low-frequency synaptic stimulation, but dyskinetic rats did not. The depotentiation seen in both L-DOPA-treated non-dyskinetic rats and intact controls was prevented by activation of the D1 subclass of dopamine receptors or inhibition of protein phosphatases. The striata of dyskinetic rats contained abnormally high levels of phospho[Thr34]-DARPP-32, an inhibitor of protein phosphatase 1. These results indicate that abnormal information storage in corticostriatal synapses is linked with the development of L-DOPA-induced dyskinesia.

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Cell type-specific plasticity of striatal projection neurons in parkinsonism and L-DOPA-induced dyskinesia

Fieblinger

et al. 2014

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Summary The striatum is widely viewed as the fulcrum of pathophysiology in Parkinson's disease (PD) and L-DOPA-induced dyskinesia (LID). In these disease states, the balance in activity of striatal direct pathway spiny projection neurons (dSPNs) and indirect pathway spiny projection neurons (iSPNs) is disrupted, leading to aberrant action selection. However, it is unclear whether countervailing mechanisms are engaged in these states. Here we report that iSPN intrinsic excitability and excitatory corticostriatal synaptic connectivity were lower in PD models than normal; L-DOPA treatment restored these properties. Conversely, dSPN intrinsic excitability was elevated in tissue from PD models and suppressed in LID models. Although the synaptic connectivity of dSPNs did not change in PD models, it fell with L-DOPA treatment. In neither case, however, was the strength of corticostriatal connections globally scaled. Thus, SPNs manifested homeostatic adaptations in intrinsic excitability and in the number but not strength of excitatory corticostriatal synapses.

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Striatal fosB Expression Is Causally Linked with l-DOPA-Induced Abnormal Involuntary Movements and the Associated Upregulation of Striatal Prodynorphin mRNA in a Rat Model of Parkinson's Disease

Andersson

Hilbertson

Cenci

1999

Neurobiology of Disease

332

290

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l-DOPA-Induced Dyskinesia in the Intrastriatal 6-Hydroxydopamine Model of Parkinson's Disease: Relation to Motor and Cellular Parameters of Nigrostriatal Function

Winkler

Kirik

Björklund

et al. 2002

Neurobiology of Disease

391

283

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L-DOPA-induced dyskinesia in the rat is associated with striatal overexpression of prodynorphin- and glutamic acid decarboxylase mRNA

1998

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Rats sustaining unilateral near-complete 6-hydroxydopamine lesions of the mesostriatal dopamine pathway received daily injections of 3, 4 dihydroxyphenyl-l-alanine (L-DOPA, 8 mg/kg plus 15 mg/kg benserazide) for 3 weeks. During this period, about 50% of the rats gradually developed abnormal involuntary movements, lasting for 2-3 h following each L-DOPA dose. Rats were killed 3 days after the last L-DOPA injection, and sections through the striatum were processed for in situ hybridization histochemistry. Within the L-DOPA-treated group, levels of preproenkephalin (PPE) mRNA, glutamic acid decarboxylase (GAD67) mRNA, and prodynorphin (PDyn) mRNA in the dopamine-denervated caudate-putamen, as well as GAD67 mRNA expression in the globus pallidus ipsilateral to the 6-hydroxydopamine (6-OHDA) lesion, were higher in dyskinetic than non-dyskinetic animals, and positively correlated with the rats' dyskinesia scores. By contrast, striatal preprotachykinin mRNA expression and D2 receptor-radioligand binding were not significantly associated with dyskinesia. Among all these markers, PDyn mRNA levels showed the most pronounced treatment-dependence (three times higher in the L-DOPA-treated group than in saline-injected lesion-only controls), and the strongest correlation with the rats' dyskinesia scores (r2 = 0.82). However, a multiple regression equation including the three factors, GAD67 mRNA levels in the GP, GAD67 mRNA in the lateral CPu, and striatal PDyn mRNA, gave a better fit for dyskinesia scores than PDyn mRNA alone (r2 = 0.92). The results show that L-DOPA-induced dyskinesia is associated with overexpression of PDyn and GAD67 mRNA in the striatal projection neurons, and GAD67 mRNA levels in the globus pallidus. Due to its treatment-dependent expression, and strong correlation with the associated dyskinetic symptoms, striatal PDyn mRNA, in particular, may play a role in the mechanisms of behavioural sensitization brought about by the drug.

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M. Angela Cenci

Loss of bidirectional striatal synaptic plasticity in L-DOPA–induced dyskinesia

Cell type-specific plasticity of striatal projection neurons in parkinsonism and L-DOPA-induced dyskinesia

Striatal fosB Expression Is Causally Linked with l-DOPA-Induced Abnormal Involuntary Movements and the Associated Upregulation of Striatal Prodynorphin mRNA in a Rat Model of Parkinson's Disease

l-DOPA-Induced Dyskinesia in the Intrastriatal 6-Hydroxydopamine Model of Parkinson's Disease: Relation to Motor and Cellular Parameters of Nigrostriatal Function

L-DOPA-induced dyskinesia in the rat is associated with striatal overexpression of prodynorphin- and glutamic acid decarboxylase mRNA

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