Potential of Opioid Antagonists in the Treatment of Levodopa-Induced Dyskinesias in Parkinson??s Disease

Henry, Brian; Brotchie, Jonathan M.

doi:10.2165/00002512-199609030-00001

Cited by 64 publications

(29 citation statements)

References 53 publications

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“…NALOX, Naloxone; ENDO, endomorphin-1; VEH, vehicle. apomorphine-induced rotations in rats with unilateral nigrostriatal lesions (Henry and Brotchie, 1996), whereas cyprodime, a selective -opioid receptor antagonist, had no effect on the behavior (Henry and Brotchie, 1996).…”

Section: The Opioid System and Dyskinesiamentioning

confidence: 99%

Endomorphin-1: Induction of Motor Behavior and Lack of Receptor Desensitization

et al. 2001

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The endomorphins are recently discovered endogenous agonists for the -opioid receptor (Zadina et al., 1997). Endomorphins produce analgesia; however, their role in other brain functions has not been elucidated. We have investigated the behavioral effects of endomorphin-1 in the globus pallidus, a brain region that is rich in -opioid receptors and involved in motor control. Bilateral administration of endomorphin-1 in the globus pallidus of rats induced orofacial dyskinesia. This effect was dose-dependent and at the highest dose tested (18 pmol per side) was sustained during the 60 min of observation, indicating that endomorphin-1 does not induce rapid desensitization of this motor response. In agreement with a lack of desensitization of -opioid receptors, 3 hr of continuous exposure of the cloned receptor to endomorphin-1 did not diminish the subsequent ability of the agonist to inhibit adenylate cyclase activity in cells expressing the cloned -opioid receptor. Confirming the involvement of -opioid receptors, the behavioral effect of endomorphin-1 in the globus pallidus was blocked by the opioid antagonist naloxone and the -selective peptide antagonist Cys 2 -Tyr 3 -Orn 5 -Pen 7 amide (CTOP). Furthermore, the selective receptor agonist [D-Ala 2 -N-Me-Phe 4 -Glycol 5 ]-enkephalin (DAMGO) also stimulated orofacial dyskinesia when infused into the globus pallidus, albeit transiently. Our findings suggest that endogenous agonists may play a role in hyperkinetic movement disorders by inducing sustained activation of pallidal opioid receptors.

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Section: The Opioid System and Dyskinesiamentioning

confidence: 99%

Endomorphin-1: Induction of Motor Behavior and Lack of Receptor Desensitization

et al. 2001

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“…While these methods are useful for distinguishing the relevance of a particular dopamine subsystem (eg D1 or D2), these pharmacologic manipulations impose changes to neuronal systems that, even in the absence of MA coadministration, can alter motor behavior. In fact, opioid peptides have been employed for years as a potential adjunctive treatment for Parkinson's disease (Giuffra et al, 1993;Hille et al, 2001) and its complications (Henry and Brotchie, 1996). Nevertheless, this work has led to a greater understanding of the role of MA in behavioral disturbances regulated by the dopamine via the direct and indirect striatopallidal GABAergic pathways and their translation to movement disorders humans.…”

Section: Motor Dysfunction Following Ma Preclinical Studiesmentioning

confidence: 99%

Do Preclinical Findings of Methamphetamine-Induced Motor Abnormalities Translate to an Observable Clinical Phenotype?

Caligiuri

Buitenhuys

2005

Neuropsychopharmacol

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This review summarizes the preclinical literature of the effects of methamphetamine (MA) on subcortical dopaminergic and GABAergic mechanisms underlying motor behavior with the goal of elucidating the clinical presentation of human MA-induced movement disorders. Acute and chronic MA exposure in laboratory animal can lead to a variety of motor dysfunctions including increased locomotor activity, stereotypies, diminished or enhanced response times, and parkinsonian-like features. With the exception of psychomotor impairment and hyperkinesia, MA-induced movement disorders are not well documented in humans. This review attempts to draw parallels between the animal and human changes in basal ganglia neurochemistry associated with MA exposure and offers explanations for why a parkinsonian phenotype is not apparent among individuals who use and abuse MA. Significant differences in the expression of neurotoxicity and presence of multiple environmental and pharmacologic confounds may account for the lack of a parkinsonian phenotype in humans despite evidence of altered dopamine function.

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“…Such shortcomings of L-DOPA and other dopaminergic drugs have prompted a search for alternative treatment strategies that provide symptomatic benefits while avoiding the delayed motor complications associated with the long-term use of antiparkinsonian drugs. Several neurotransmitters have been implicated in the motor complications elicited by repeated dopamine receptor stimulation, including glutamate (Marin et al, 1996;Tzschentke and Schmidt, 1998;Calabresi et al, 2000), cannabinoids (Souilhac et al, 1995;Zeng et al, 1999), opioids (Henry and Brotchie, 1996), and adenosine (Richardson et al, 1997;Kanda et al, 2000;Jenner, 2000). Recently, the A 2A adenosine receptor has emerged as an attractive target for PD treatment by virtue of its concentrated expression in striatopallidal neurons and its modulation of dopamine receptor-mediated functions (Schiffmann et al, 1991;Fink et al, 1992;Ferré et al, 1997;Svenningsson et al, 1999).…”

Section: Abstract: a 2a Adenosine Receptor; L-dopa; Behavioral Sensimentioning

confidence: 99%

Persistent Behavioral Sensitization to Chronic l-DOPA Requires A_2AAdenosine Receptors

et al. 2002

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To investigate the role of A 2A adenosine receptors in adaptive responses to chronic intermittent dopamine receptor stimulation, we compared the behavioral sensitization elicited by repeated L-DOPA treatment in hemiparkinsonian wild-type (WT) and A 2A adenosine receptor knock-out (A 2A KO) mice. Although the unilateral nigrostriatal lesion produced by intrastriatal injection of 6-hydroxydopamine was indistinguishable between WT and A 2A KO mice, they developed strikingly different patterns of behavioral sensitization after daily treatment with low doses of L-DOPA for 3 weeks. WT mice initially displayed modest contralateral rotational responses and then developed progressively greater responses that reached a maximum within 1 week and persisted for the duration of the treatment. In contrast, any rotational behavioral sensitization in A 2A KO mice was transient and completely reversed within 2 weeks. Similarly, the time to reach the peak rotation was progressively shortened in WT mice but remained unchanged in A 2A KO mice. Furthermore, daily L-DOPA treatment produced gradually sensitized grooming in WT mice but failed to induce any sensitized grooming in A 2A KO mice. Finally, repeated L-DOPA treatment reversed the 6-OHDA-induced reduction of striatal dynorphin mRNA in WT but not A 2A KO mice, raising the possibility that the A 2A receptor may contribute to L-DOPA-induced behavioral sensitization by facilitating adaptations within the dynorphinexpressing striatonigral pathway. Together these results demonstrate that the A 2A receptor plays a critical role in the development and particularly the persistence of behavioral sensitization to repeated L-DOPA treatment. Furthermore, they raise the possibility that the maladaptive dyskinetic responses to chronic L-DOPA treatment in Parkinson's disease may be attenuated by A 2A receptor inactivation. Key words: A 2A adenosine receptor; L-DOPA; behavioral sensitization; Parkinson's disease; dyskinesia; dynorphinFor Ͼ30 years the dopamine precursor L-DOPA has been the most effective and commonly prescribed treatment for Parkinson's disease (PD). Despite its considerable symptomatic motor benefit, chronic administration of L-DOPA leads to abnormal motor responses known as dyskinesias, involving involuntary choreic or dystonic movements in Ͼ50% of patients (5 years after the initiation of the treatment) (Chase, 1998;Obeso et al., 2000). Such shortcomings of L-DOPA and other dopaminergic drugs have prompted a search for alternative treatment strategies that provide symptomatic benefits while avoiding the delayed motor complications associated with the long-term use of antiparkinsonian drugs. Several neurotransmitters have been implicated in the motor complications elicited by repeated dopamine receptor stimulation, including glutamate (Marin et al., 1996;Tzschentke and Schmidt, 1998;Calabresi et al., 2000), cannabinoids (Souilhac et al., 1995;Zeng et al., 1999), opioids (Henry and Brotchie, 1996), and adenosine (Richardson et al., 1997;Kanda et al., 2000;Jenner, 2000). Recent...

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Potential of Opioid Antagonists in the Treatment of Levodopa-Induced Dyskinesias in Parkinson??s Disease

Cited by 64 publications

References 53 publications

Endomorphin-1: Induction of Motor Behavior and Lack of Receptor Desensitization

Endomorphin-1: Induction of Motor Behavior and Lack of Receptor Desensitization

Do Preclinical Findings of Methamphetamine-Induced Motor Abnormalities Translate to an Observable Clinical Phenotype?

Persistent Behavioral Sensitization to Chronic l-DOPA Requires A_2AAdenosine Receptors

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Potential of Opioid Antagonists in the Treatment of Levodopa-Induced Dyskinesias in Parkinson??s Disease

Cited by 64 publications

References 53 publications

Endomorphin-1: Induction of Motor Behavior and Lack of Receptor Desensitization

Endomorphin-1: Induction of Motor Behavior and Lack of Receptor Desensitization

Do Preclinical Findings of Methamphetamine-Induced Motor Abnormalities Translate to an Observable Clinical Phenotype?

Persistent Behavioral Sensitization to Chronic l-DOPA Requires A2AAdenosine Receptors

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Persistent Behavioral Sensitization to Chronic l-DOPA Requires A_2AAdenosine Receptors