Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0013421 (dystonia)
 8,418 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Motor complications are a common cause of treatment failure in Parkinson's disease (PD). Although the underlying mechanisms remain obscure, research with 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP)-treated primates may facilitate their investigation. Repeated administration of L-dopa to MPTP-treated primates results in a loss of drug efficacy ("wearing off") and periods of immobility ("on-off"). Immediately after each dose of L-dopa, animals show an initial worsening of motor performance ("beginning-of-dose deterioration") and, at the end of action of each dose, they exhibit a decline to levels of disability below those seen at baseline ("rebound worsening"). Dyskinesia (chorea, dystonia, athetosis) appears rapidly in MPTP-treated primates given L-dopa. The greater the degree of nigral denervation, the less exposure to L-dopa that is required to induce dyskinesia. The onset and intensity of dyskinesia are related to the dose and frequency of L-dopa administration. Increasing brain exposure to L-dopa increases the severity and intensity of involuntary movements. In contrast, long-acting dopamine agonists (DAs) induce a far lower incidence of dyskinesia, and continuous dopaminergic stimulation may provide a means of avoiding its onset. Recent data from MPTP-treated primates suggest that switching from L-dopa to a long-acting DA may reverse the priming process associated with induction of dyskinesia. Responses of MPTP-treated primates have proved to be highly predictive of antiparkinsonian activities of drugs in humans and their ability to induce dyskinesia, but they may also have utility in evaluating the mechanisms that underlie a range of long-term motor complications affecting patients with PD.
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PMID:The MPTP-treated primate as a model of motor complications in PD: primate model of motor complications. 1450 74

Ecstasy [3,4-methylenedioxymethamphetamine (MDMA)] was shown to prolong the action of L-3,4-dihydroxyphenylalanine (L-DOPA) while suppressing dyskinesia in a single patient with Parkinson's disease (PD). The clinical basis of this effect of MDMA is unknown but may relate to its actions on either dopaminergic or serotoninergic systems in brain. In normal, drug-naive common marmosets, MDMA administration suppressed motor activity and exploratory behavior. In 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP)-treated, L-DOPA-primed common marmosets, MDMA transiently relieved motor disability but over a period of 60 min worsened motor symptoms. When given in conjunction with L-DOPA, however, MDMA markedly decreased dyskinesia by reducing chorea and to a lesser extent dystonia and decreased locomotor activity to the level observed in normal animals. MDMA similarly alleviated dyskinesia induced by the selective dopamine D2/3 agonist pramipexole. The actions of MDMA appeared to be mediated through 5-HT mechanisms because its effects were fully blocked by the selective serotonin reuptake inhibitor fluvoxamine. Furthermore, the effect of MDMA on L-DOPA-induced motor activity and dyskinesia was partially inhibited by 5-HT1a/b antagonists. The ability of MDMA to inhibit dyskinesia results from its broad spectrum of action on 5-HT systems. Serotoninergic receptors appear to play an important modulatory role in l-DOPA-induced dyskinesia, and this study may provide a framework for the use of serotoninergic agents in the treatment of L-DOPA-induced dyskinesia.
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PMID:3,4-methylenedioxymethamphetamine (ecstasy) inhibits dyskinesia expression and normalizes motor activity in 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine-treated primates. 1453 44

Early-onset torsion dystonias are caused by a mutation in TorsinA, a protein widely expressed in the nervous system. Here we report the cloning of the murine TorsinA cDNA and a mRNA in situ hybridization analysis of the expression patterns of TorsinA over developmental periods relevant to the etiology of early-onset dystonias. Several studies have demonstrated a functional involvement of the nigrostriatal dopaminergic system in pathological mechanisms underlying dystonia. In this study, we show that the expression of TorsinA is significantly increased in the brain within hours of treatment with the dopaminergic toxin, 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine in mice, suggesting that the TorsinA gene is regulated by cellular stress. These results provide insights into the pathophysiology of early-onset dystonia and strengthen links between the dopaminergic system and dystonia.
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PMID:TorsinA, the gene linked to early-onset dystonia, is upregulated by the dopaminergic toxin MPTP in mice. 1472 51

L-3,4 dihydroxyphenylalanine (levodopa)-induced dyskinesia in Parkinson's disease patients is characterized by a mixture of chorea and dystonia. Electrophysiological studies suggest that chorea is associated with abnormal synchronization of firing of basal ganglia neurons while dystonia is not. Levetiracetam is a novel anti-epileptic drug known to exhibit unique desynchronizing properties in contrast to other anti-epileptic drugs. We assessed the anti-dyskinetic efficacy of levetiracetam (13, 30 and 60 mg/kg, p.o.) administered in combination with an individually tailored dose of levodopa (Levodopa/carbidopa, 4:1 ratio, 19+/-1.8 mg/kg, p.o.), in six dyskinetic 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP)-lesioned macaques. Levetiracetam (60 mg/kg) significantly reduced levodopa-induced chorea during the first hour post-treatment but had no effect on dystonia. Levetiracetam, at all doses tested, had no effect on the anti-parkinsonian action of levodopa. These results suggest that levetiracetam may provide a novel therapeutic approach specifically aimed at the choreic form of levodopa-induced dyskinesia.
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PMID:Levetiracetam improves choreic levodopa-induced dyskinesia in the MPTP-treated macaque. 1475 36

Multiple system atrophy (MSA) is a sporadic adult-onset neurodegenerative disorder of unknown etiology clinically characterized by a combination of parkinsonian, pyramidal, and cerebellar signs. Levodopa-unresponsive parkinsonism is present in 80% of MSA cases, and this dominant clinical presentation (MSA-P) is associated with a combined degeneration of the substantia nigra pars compacta and the striatum in anatomically related areas. The limited knowledge of the pathophysiology of MSA and the lack of therapeutic strategies prompted the development of lesion models reproducing striatonigral degeneration, the substrate of levodopa-unresponsive parkinsonism in MSA-P. This method was carried out first in rats with two different stereotaxic strategies using either two neurotoxins ("double toxin-double lesion") or a single neurotoxin ("single toxin-double lesion"). Double-lesioned rat models showed severe motor impairment compared to those with a single nigral or striatal lesion and helped to mimic different stages of the disease. Systemic models were also developed in mice and primates using the nigral toxin 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) and the striatal toxin 3-nitropropionic (3-NP). In mice, although MPTP reduced the subsequent sensitivity to 3-NP in a sequential lesion, simultaneous nigral and striatal insults were shown to exacerbate striatal damage. MPTP-treated monkeys displayed a significant worsening of parkinsonism and a loss of levodopa-responsiveness after the appearance of hindlimb dystonia and striatal lesion formation induced by subsequent 3-NP intoxication. The different species and intoxication paradigms used will be useful to investigate functional changes in substantia nigra and striatum and to define neuroprotective, neurorestorative, or symptomatic therapeutic strategies.
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PMID:In vivo models of multiple system atrophy. 1609 92

Pallidotomy paradoxically reduces the intensity of levodopa-induced dyskinesia without worsening motor symptoms. The reasons for this are not clear and no experimental study has investigated this phenomenon. The objective of this investigation was to evaluate the effects of unilateral pallidotomy on locomotor activity, motor disability and levodopa-induced dyskinesia in 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine-treated levodopa-primed common marmosets. Animals were primed to exhibit dyskinesia by daily administration of levodopa until stable dyskinesia was evoked by each dose. Locomotor activity, motor disability and dyskinesia were assessed weekly at baseline and following an acute levodopa challenge. Prior to pallidotomies, two distinct groups of animals emerged: poor responders to levodopa with mild dyskinesia (Group 1) and those exhibiting a marked increase in motor activity and pronounced dyskinesia (Group 2). Electrolytic lesions were placed in the left internal segment of the globus pallidus. Pallidotomy had no effect on basal or levodopa-induced motor activity in either group but significantly improved basal motor disability in Group 2. Following pallidotomy, the ability of levodopa to reduce motor disability was significantly increased in both groups. Pallidotomy improved dyskinesia in both Groups 1 and 2 but it was more effective in reducing dystonia compared with chorea. The effect of pallidotomy on dyskinesia in Group 2 was transient, with the intensity of involuntary movements reverting to presurgery levels 4 weeks later. This study shows that in levodopa-primed, parkinsonian marmosets, placement of discrete globus pallidus lesions can ameliorate levodopa-induced dyskinesia but not akinesia. This model allows the evaluation of pallidotomy-induced biochemical changes in dyskinetic primates.
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PMID:Unilateral pallidotomy in 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine-treated common marmosets exhibiting levodopa-induced dyskinesia. 1619 Aug 86

Unilateral intracarotid infusion of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) in baboons produces transient contralateral dystonia lasting 2-3 weeks followed by chronic hemiparkinsonism. We now extend this model to Macaca nemestrina and Macaca fascicularis. MPTP was infused unilaterally into the internal carotid artery of two M. nemestrina and 11 M. fascicularis. Effects were assessed with blinded clinical ratings of dystonia and Parkinsonism; [18F]-6-fluoro-DOPA (FDOPA) positron emission tomography; and postmortem measurements of striatal dopamine content. In two M. nemestrina, MPTP 0.4 mg/kg intracarotid produced acute dystonia within 24 h then chronic Parkinsonism starting 3 weeks later. In three M. fascicularis, MPTP 0.4 mg/kg produced acute dystonia within 3-8 h but two others died from large hemispheric infarcts within 1 day. A much lower dose, MPTP 0.1 mg/kg produced no clinical manifestations (n=1), whereas MPTP 0.25 mg/kg produced consistent transient dystonia and ipsiversive turning within 1-3 days followed by chronic Parkinsonism at 3 weeks (n=5). One week after MPTP, striatal FDOPA uptake decreased an average of 69% in M. nemestrina (0.4 mg/kg); and decreased an average of 70+/-21% in M. fascicularis (0.25 mg/kg). Striatal dopamine was reduced an average 66% in the first day (n=2) during acute dystonia, 98% at 3 days (n=1) and 99%+/-2.3% at 2-4 months (n=5). M. nemestrina had a clinical response similar to baboons whereas M. fascicularis seemed more sensitive to MPTP. These findings extend the model of MPTP-induced transient dystonia followed by chronic hemiparkinsonism to M. nemestrina and M. fascicularis and demonstrate that the early dystonic phase is accompanied by striatal dopamine deficiency.
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PMID:1-Methyl-4-phenyl-1,2,3,6-tetrahydropyridine-induced acute transient dystonia in monkeys associated with low striatal dopamine. 1676 29

5-Hydroxytryptamine 1a (5-HT(1a)) receptor agonists, such as sarizotan and tandospirone, are reported to reduce levodopa-induced dyskinesia in 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP)-treated macaques and in Parkinson's disease without worsening motor disability. However, these compounds are not specific for 5-HT(1a) receptors and also possess dopamine antagonist actions. We now report on the effects of (2R)-(+)-8-hydroxy-2-(di-n-propylamino)tetralin [(R)-(+)-8-OHDPAT], a selective 5-HT(1a) agonist lacking dopaminergic activity, on motor disability and dyskinesia (chorea and dystonia) in levodopa-primed MPTP-treated common marmosets. Administration of (R)-(+)-8-OHDPAT (0.2, 0.6, and 2.0 mg/kg s.c), in conjunction with levodopa/carbidopa (12.5 mg/kg each p.o.) to levodopa-primed animals, dose-dependently reduced levodopa-induced chorea but did not affect dystonic movements. However, (R)-(+)-8-OHDPAT treatment also reduced locomotor activity and the reversal of motor disability. Administration of (R)-(+)-8-OHDPAT alone had no effects of motor behaviors. The effects of (R)-(+)-8-OHDPAT on levodopa-induced motor behaviors were antagonized by the 5-HT(1a) receptor antagonist N-[2-[4-(2-methoxyphenyl)-1-piperazinyl]ethyl]-N-2-pyridinylcyclohexanecarboxamide maleate (WAY-100635) (1.0 mg/kg s.c.). Administration of (R)-(+)-8-OHDPAT (0.6 mg/kg s.c.) also reduced chorea produced by the administration of the D(2)/D(3) dopamine receptor agonist pramipexole (0.06 mg/kg p.o.) to levodopa-primed MPTP-treated animals. However, again the increase in locomotor activity and reversal of motor disability produced by pramipexole were also inhibited. These data suggest that selective 5-HT(1a) agonists do not provide an effective means of suppressing levodopa-induced dyskinesia, except with worsening of parkinsonism.
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PMID:In 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine-treated primates, the selective 5-hydroxytryptamine 1a agonist (R)-(+)-8-OHDPAT inhibits levodopa-induced dyskinesia but only with\ increased motor disability. 1695 59

High-frequency stimulation (HFS) in the globus pallidus is used to ameliorate clinical symptoms of Parkinson's disease, dystonia, and other disorders. Previous in vivo studies have shown diverse static effects of stimulation on discharge rates and firing patterns of neurons along the corticobasal ganglia loop. In vitro studies, together with other experimental and theoretical studies, have suggested the involvement of synaptic plasticity in stimulation effects. To explore the effects of HFS on synaptic transmission, we studied the dynamic changes in neuronal activity in vivo, using multielectrode recordings during stimulation in the globus pallidus of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP)-treated primates. Stimulation effects evolved over time and were pronounced during the first 10 s of stimulation, where 69% of the 249 recorded neurons changed their firing rate and 61% displayed time-locked firing. The time-locked response faded away in 43% of the responding neurons, and its pattern was altered in the remaining cells: the peak response shifted away in time from the stimulus onset, and its amplitude decreased. Repetition of the stimulation protocol revealed a full resetting of the effect, implying short-term synaptic depression. This evolving response is indicative of the transient plasticity of the corticobasal ganglia network in vivo during HFS. Therefore, short-term depression of synaptic transmission may contribute to the mechanism underlying the effects of stimulation during the resulting steady state, altering the balance of neuronal interactions and interfering with pathological information transmission.
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PMID:Short-term depression of synaptic transmission during stimulation in the globus pallidus of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine-treated primates. 1953 91

Levodopa-induced motor complications, including dyskinesia and wearing off, are troublesome side effects of treatment and impair quality of life in Parkinson's disease (PD) patients. The use of nondopaminergic agents as adjuncts to levodopa are potential options for managing these problems. Here, we asses the ability of the clinically available, selective histamine H(2) antagonist, famotidine (1, 3, and 30 mg/kg) to treat levodopa-induced dyskinesia and wearing off in the 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP)-macaque model of PD. Famotidine (3 mg/kg) increased peak activity, enhanced peak anti-parkinsonian action (1 and 3 mg/kg), and extended duration of action (3 mg/kg, by 38%) of a low dose of levodopa (compared to low dose levodopa alone). Enhancement of anti-parkinsonian actions of low dose levodopa by famotidine (3 mg/kg) was associated with only mild, nondisabling dystonia. Famotidine had no effect on the anti-parkinsonian actions of high dose levodopa (compared to high dose levodopa alone). However, famotidine (1, 3, and 30 mg/kg) had a significant effect on chorea, but not dystonia, induced by high dose levodopa (compared to high dose levodopa alone). Famotidine increased high dose levodopa-induced "good quality" on time, i.e., on time not associated with disabling dyskinesia, by up to 28% (compared to high dose levodopa alone). In conclusion, famotidine, a drug currently available for use in the clinic, can enhance the peak-dose anti-parkinsonian actions and extend total duration of action of a low dose of levodopa, without producing disabling dyskinesia. Furthermore, in combination with a higher dose of levodopa, famotidine can reduce peak-dose levodopa-induced chorea and improve the quality of on-time.
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PMID:Effect of histamine H2 receptor antagonism on levodopa-induced dyskinesia in the MPTP-macaque model of Parkinson's disease. 2031 30


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