Dyskinesias in normal squirrel monkeys induced by nomifensine and levodopa

The mechanisms underlying levodopa-induced dyskinesias are unclear. They might involve impairment of the buffering capacity for dopamine, resulting from loss of nigral dopaminergic cells and the subsequent degeneration of their terminals in striatum. This study investigated the role of striatal buff...

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Veröffentlicht in:	Neuropharmacology 2005-03, Vol.48 (3), p.398-405
Hauptverfasser:	Togasaki, Daniel M., Protell, Peter, Tan, Louis C.S., William Langston, J., Di Monte, Donato A., Quik, Maryka
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Dopamine Drug Combinations Drug Synergism Dyskinesia Dyskinesia, Drug-Induced - physiopathology Female Levodopa Levodopa - toxicity Monkey Nomifensine Nomifensine - toxicity Parkinson Saimiri
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creator	Togasaki, Daniel M. Protell, Peter Tan, Louis C.S. William Langston, J. Di Monte, Donato A. Quik, Maryka
description	The mechanisms underlying levodopa-induced dyskinesias are unclear. They might involve impairment of the buffering capacity for dopamine, resulting from loss of nigral dopaminergic cells and the subsequent degeneration of their terminals in striatum. This study investigated the role of striatal buffering in the development of dyskinesias. We used nomifensine, a selective dopamine reuptake blocker, to pharmacologically impair presynaptic buffering capacity in normal squirrel monkeys. Dyskinesias were assessed at 30-min intervals for 4 h after twice-daily treatment with drug. As previously reported by our group, animals receiving levodopa alone (15 mg/kg) exhibited dyskinetic behavior. Treatment with nomifensine alone (3 mg/kg) also induced dyskinesias. Furthermore, combining levodopa with nomifensine significantly increased dyskinesias. Over 4 weeks of treatment, the animals developed tolerance to the dyskinesia-inducing effect of nomifensine. The development of tolerance was prevented by concurrent treatment with levodopa. These results show that impairing buffering by preventing dopamine reuptake can induce dyskinesias and can also augment levodopa-induced dyskinesias. Thus, this study suggests that diminished buffering capacity for dopamine could play a role in the development of dyskinesias, and that an endogenous mechanism might exist that ameliorates dyskinesias.
doi_str_mv	10.1016/j.neuropharm.2004.10.009
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They might involve impairment of the buffering capacity for dopamine, resulting from loss of nigral dopaminergic cells and the subsequent degeneration of their terminals in striatum. This study investigated the role of striatal buffering in the development of dyskinesias. We used nomifensine, a selective dopamine reuptake blocker, to pharmacologically impair presynaptic buffering capacity in normal squirrel monkeys. Dyskinesias were assessed at 30-min intervals for 4 h after twice-daily treatment with drug. As previously reported by our group, animals receiving levodopa alone (15 mg/kg) exhibited dyskinetic behavior. Treatment with nomifensine alone (3 mg/kg) also induced dyskinesias. Furthermore, combining levodopa with nomifensine significantly increased dyskinesias. Over 4 weeks of treatment, the animals developed tolerance to the dyskinesia-inducing effect of nomifensine. The development of tolerance was prevented by concurrent treatment with levodopa. These results show that impairing buffering by preventing dopamine reuptake can induce dyskinesias and can also augment levodopa-induced dyskinesias. 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They might involve impairment of the buffering capacity for dopamine, resulting from loss of nigral dopaminergic cells and the subsequent degeneration of their terminals in striatum. This study investigated the role of striatal buffering in the development of dyskinesias. We used nomifensine, a selective dopamine reuptake blocker, to pharmacologically impair presynaptic buffering capacity in normal squirrel monkeys. Dyskinesias were assessed at 30-min intervals for 4 h after twice-daily treatment with drug. As previously reported by our group, animals receiving levodopa alone (15 mg/kg) exhibited dyskinetic behavior. Treatment with nomifensine alone (3 mg/kg) also induced dyskinesias. Furthermore, combining levodopa with nomifensine significantly increased dyskinesias. Over 4 weeks of treatment, the animals developed tolerance to the dyskinesia-inducing effect of nomifensine. The development of tolerance was prevented by concurrent treatment with levodopa. These results show that impairing buffering by preventing dopamine reuptake can induce dyskinesias and can also augment levodopa-induced dyskinesias. 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They might involve impairment of the buffering capacity for dopamine, resulting from loss of nigral dopaminergic cells and the subsequent degeneration of their terminals in striatum. This study investigated the role of striatal buffering in the development of dyskinesias. We used nomifensine, a selective dopamine reuptake blocker, to pharmacologically impair presynaptic buffering capacity in normal squirrel monkeys. Dyskinesias were assessed at 30-min intervals for 4 h after twice-daily treatment with drug. As previously reported by our group, animals receiving levodopa alone (15 mg/kg) exhibited dyskinetic behavior. Treatment with nomifensine alone (3 mg/kg) also induced dyskinesias. Furthermore, combining levodopa with nomifensine significantly increased dyskinesias. Over 4 weeks of treatment, the animals developed tolerance to the dyskinesia-inducing effect of nomifensine. The development of tolerance was prevented by concurrent treatment with levodopa. 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subjects	Animals Dopamine Drug Combinations Drug Synergism Dyskinesia Dyskinesia, Drug-Induced - physiopathology Female Levodopa Levodopa - toxicity Monkey Nomifensine Nomifensine - toxicity Parkinson Saimiri
title	Dyskinesias in normal squirrel monkeys induced by nomifensine and levodopa
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