Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0030567 (Parkinson's disease)
 63,064 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Alterations in dopaminergic system are known to lie in the basis of such diseases as Parkinson's disease, Huntington's disease, Attention Deficit/Hyperactivity Disorder, Tourette syndrome, schizophrenia and drug abuse. This induced broad investigations of dopaminergic system in nearly all the areas of neuroscience. New insights into the pathogenesis of neuropsychiatric diseases have emerged. Research in the field of dopaminergic neurotransmission and memory was awarded Nobel prize in the year 2000. New avenues for the development of more selective drugs have been opened. In their daily practice clinicians are often prescribing medications acting on presynaptic or postsynaptic sites of dopaminergic units. Thus the aim of this review was to renew some knowledge on the architecture of dopaminergic system and also to glance through some of the studies implying its modulating effect on cognitive functions.
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PMID:[Dopaminergic modulation of cerebral activity and cognitive functions]. 1247 82

The striatum and its dense dopaminergic innervation originating in the midbrain, primarily from the substantia nigra pars compacta and the ventral tegmental area, compose the mesostriatal dopamine (DA) systems. The nigrostriatal system is involved mainly in motor coordination and in disorders such as Tourette's syndrome, Huntington's disease, and Parkinson's disease. The dopaminergic projections from the ventral tegmental area to the striatum participate more in the processes that shape behaviors leading to reward, and addictive drugs act upon this mesolimbic system. The midbrain DA areas receive cholinergic innervation from the pedunculopontine tegmentum and the laterodorsal pontine tegmentum, whereas the striatum receives dense cholinergic innervation from local interneurons. The various neurons of the mesostriatal systems express multiple types of muscarinic and nicotinic acetylcholine receptors as well as DA receptors. Especially in the striatum, the dense mingling of dopaminergic and cholinergic constituents enables potent interactions. Evidence indicates that cholinergic and dopaminergic systems work together to produce the coordinated functioning of the striatum. Loss of that cooperative activity contributes to the dysfunction underlying Parkinson's disease.
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PMID:Muscarinic and nicotinic cholinergic mechanisms in the mesostriatal dopamine systems. 1258 Mar 37

Levodopa has several advantages as a pharmacological challenge agent for human neuroscience research. Exogenous levodopa changes striatal neuronal activity and increases extracellular dopamine concentrations, and with adequate inhibition of peripheral metabolism levodopa does not change mean cerebral blood flow. For neuroimaging studies of Parkinson disease (PD) and Tourette syndrome, we sought to rapidly produce a biologically relevant steady-state levodopa concentration and then maintain that concentration for at least an hour. We also wished to minimize side effects, even in individuals without prior levodopa treatment. We designed a two-stage intravenous infusion protocol based on published levodopa pharmacokinetic data. We report results of 125 infusions in 106 subjects, including healthy volunteers, PD patients, and people with chronic tics. At higher doses (target steady-state levodopa concentrations of 2,169 and 1,200 ng/ml), treatment-naive volunteers had unacceptably frequent side effects. The final infusion protocol, with a target steady-state concentration of 600 ng/ml, was well-tolerated (mild nausea in 11% of subjects was the only side effect occurring significantly more than in single-blind saline infusions), produced the desired plasma levodopa concentration (612+/-187 ng/ml, mean+/-S.D.), and produced statistically significant antiparkinsonian benefit (16% mean reduction in a standard rating of parkinsonian motor signs, P<0.0005).
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PMID:Rapid intravenous loading of levodopa for human research: clinical results. 1286 45

Striatal cholinergic interneurons located in the dorsal striatum and nucleus accumbens are amenable to influences of the dopaminergic mesolimbic pathway, which is a pathway involved in reward and reinforcement and targeted by several drugs of abuse. Dopamine and acetylcholine neurotransmission and their interactions are essential to striatal function, and disruptions to these systems lead to a variety of clinical disorders. Dopamine regulates acetylcholine release through dopamine receptors that are localized directly on striatal cholinergic interneurons. The dopamine D2 receptor, which attenuates acetylcholine release, has been implicated in drug relapse and is targeted by therapeutic drugs that are used to treat a variety of neurological disorders including Tourette Syndrome, Parkinson's disease and schizophrenia. The present study provides the first direct evidence for the localization of dopamine D2 receptors on striatal cholinergic interneurons of the rat brain using dual labeling immunocytochemistry procedures. Using light microscopy, dopamine D2 receptors were localized on the cell somata and dendritic and axonal processes of striatal cholinergic interneurons in the dorsal striatum and nucleus accumbens of the rat brain. These findings provide a foundation for understanding the specific roles that cholinergic neuronal network systems and interacting dopaminergic signaling pathways play in striatal function and in a variety of clinical disorders including drug abuse and addiction.
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PMID:Localization of dopamine D2 receptors on cholinergic interneurons of the dorsal striatum and nucleus accumbens of the rat. 1296 26

Nicotine addiction is the single largest preventable cause of morbidity and mortality in the Western World. Smoking is not any more just a bad habit, but a substance addiction problem. The pharmacological aspects of nicotine show that this substance has a broad distribution in the different body compartnents, due mainly to its lipophilic characteristic. There are nicotinic receptors as members of cholinergic receptors' family. They are located in neuromuscular junction and in the central nervous system (CNS). Although they are similar, pentameric structure with an ionic channel to sodium, there are some differences in the protein chains characteristics. Repeated administration of nicotine in rats, results in the sensitization phenomenon, which produces increase in the behavioral locomotor activity response. It has been found that most psychostimulants-induced behavioral sensitization through a nicotine receptor activation. Nicotine receptors in CNS are located mainly in presynaptic membrane and in that way they regulated the release of several neurotransmitters, among them acetylcholine, dopamine, serotonin, and norepinephrine. In some activities like sleep-wake cycle, nicotine receptors have a functional significance. Nicotine receptor stimulation promotes wake time, reduces both, total sleep time and rapid eye movement sleep (REMS). About nicotine dependence, this substance full fills all the criteria for dependence and withdrawal syndrome. There are some people that have more vulnerability for to become nicotine dependent, those are psychiatric patients. Among them schizophrenia, major depression, anxiety disorders and attention deficit disorder, represent the best example in this area. Nicotine may have some beneficial effects, among them are some neuroprotective effects in disorders like Parkinson's disease, and Gilles de la Tourette' syndrome. Also there are several evidences that support the role of nicotine in cognitive improvement functions like attention, concentration, and memory. Finally there are several strategies to deal with nicotine dependence, Nicotine Replacement Therapy (NRT), which are nicotine chewing-gum, transdermal nicotine patches, and nicotine inhalators device. Also some antidepressants like bupropion has shown to be effective in smoking cessation treatment. To know more about nicotine phenomenon would be important, because that will allow a more mature perspective about the damage and beneficial effects of that substance.
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PMID:Nicotine dependence and psychiatric disorders. 1501 38

In this study the role of DBS in advanced Parkinson disease (PD) is re-evaluated and new indications in the field of movement disorders are explored. The authors performed unilateral pallidal stimulation in 26 patients with advanced PD. At long-term follow-up review, the motor effect is unsatisfying. The authors conclude that unilateral pallidal stimulation is not a favourable treatment option for patients with advanced PD. Bilateral subthalamic nucleus stimulation was performed in twenty patients with advanced PD. After a minimum follow-up of 4 years, there was still a significant improvement in motor function and functional performance in all patients. One side-effect of the stimulation was however rather concerning: four patients presented with stimulation-induced hypomanic to manic characteristics. Bilateral subthalamic stimulation was performed in four patients with multiple system atrophy-parkinsonism. At long-term follow-up, the patients fared better with than without stimulation. The authors finally present a completely new indication for DBS: Tourette syndrome (TS). They review the literature on surgical procedures performed in TS, all of which consisted of making lesions. Three TS patients are presented on which bilateral thalamic stimulation was performed. At long-term follow-up, all major tics had disappeared, as well as associated behavioral disturbances.
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PMID:Deep brain stimulation in movement disorders. The applications reconsidered. 1514 60

The opioid transmitters enkephalin and dynorphin are known to regulate pallidal output and consequently cortical excitability. Indeed, abnormal basal ganglia opioid transmission has been reported in several involuntary movement disorders, including levodopa-induced dyskinesias in Parkinson's disease (PD), tardive dyskinesias/dystonia, Huntington's disease, and Tourette's syndrome. Moreover, a previous 11C-diprenorphine PET study investigating levodopa-induced dyskinesias found reduced opioid receptor availability in PD with but not without dyskinesias. We wished to investigate if a similar alteration in basal ganglia opioid binding was present in DYT1 primary torsion dystonia (PTD). Regional cerebral 11C-diprenorphine binding was investigated in 7 manifesting carriers of the DYT1 gene and 15 age-matched normal controls using a region-of-interest (ROI) approach and statistical parametric mapping (SPM). No difference in regional mean 11C-diprenorphine binding was found between DYT1-PTD and controls, and no correlation between the severity of dystonia and opioid binding was seen. We conclude that aberrant opioid transmission is unlikely to be present in DYT1-PTD and altered opioid transmission is not a common mechanism underlying all disorders of involuntary movement.
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PMID:Opioid binding in DYT1 primary torsion dystonia: an 11C-diprenorphine PET study. 1539 64

Compelling evidence indicates that the long (D2L) and the short (D2S) isoform of dopamine (DA) D2 receptors serve distinct physiological functions in vivo. To address the involvement of these isoforms in the control of synaptic transmission in the striatum, we measured the sensitivity to D2 receptor stimulation of glutamate- and GABA-mediated currents recorded from striatal neurons of three mutant mice, in which the expression of D2L and D2S receptors was either ablated or variably altered. Our data indicate that both isoforms participate in the presynaptic inhibition of GABA transmission in the striatum, while the D2-receptor-dependent modulation of glutamate release preferentially involves the D2S receptor. Accordingly, the inhibitory effects of the DA D2 receptor agonist quinpirole (10 microM) on GABA(A)-mediated spontaneous inhibitory postsynaptic currents (IPSCs)correlate with the total number of D2 receptor sites in the striatum, irrespective of the specific receptor isoform expressed. In contrast, glutamate-mediated spontaneous excitatory postsynaptic currents (EPSCs) were significantly inhibited by quinpirole only when the total number of D2 receptor sites, normally composed by both D2L and D2S receptors in a ratio favoring the D2L isoform, was modified to express only the D2S isoform at higher than normal levels. Understanding the physiological roles of DA D2 receptors in the striatum is essential for the treatment of several neuropsychiatric conditions, such as Parkinson's disease, Tourette's syndrome, schizophrenia, and drug addiction.
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PMID:Differential contribution of dopamine D2S and D2L receptors in the modulation of glutamate and GABA transmission in the striatum. 1548 38

The five subtypes of dopaminergic receptors exhibit different transduction, cerebral localization, regulation, pharmacological, and physiological roles, explaining their multiple pathophysiological implications in different neuropsychiatric conditions which result, at least in part from anomalous dopaminergic neurotransmission: Parkinson's disease, schizophrenia, addiction, migraine, mode disorders, Gilles de la Tourette disease, hyperactivity syndrome with attention deficit. The wide range of pharmacological implications explains the diversity of the therapeutic approaches perspectives for development of new drugs for these neuropsychiatric conditions.
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PMID:[Central dopaminergic receptors (Part II): pathophysiological and therapeutic considerations]. 1549 28

Cigarette smoking rates in the American population are approximately 23%, whereas rates of smoking in clinical and population studies of individuals with neuropsychiatric disorders are typically two- to four-fold higher. Studies conducted in a variety of neuropsychiatric populations [e.g. attention-deficit hyperactivity disorder (ADHD), Alzheimer's disease, schizophrenia] have collectively suggested that nicotine may be efficacious in remediating selected cognitive deficits associated with these disorders, thus providing a framework for understanding the specific vulnerability of these patients to smoking initiation and maintenance. However, the specific gain in cognitive performance produced by nicotine administration in healthy subjects with normal cognitive function is less clear. This article reviews our current understanding of central nicotinic acetylcholine receptor (nAChRs) systems in normal and neuropsychiatric disease states and, specifically, their role with respect to cognitive dysfunction and clinical symptoms in several specific neuropsychiatric populations, including ADHD, Alzheimer's disease, Parkinson's disease, Tourette's Disorder, schizophrenia and affective disorders. The potential benefits of nicotinic agents for therapeutic use in neuropsychiatric disorders is discussed, as well as directions for further research in this area.
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PMID:Nicotinic receptor mechanisms and cognition in normal states and neuropsychiatric disorders. 1558 13


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