UMLS:C0030567 - FACTA Search

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Query: UMLS:C0030567 (Parkinson's disease)
63,064 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Ten free monoamines and their metabolites in plasma and cerebrospinal fluid (CSF) were simultaneous measured in 6 levodopa-untreated (LU), 18 levodopa-treated (LT) and 37 levodopa-withdrawn (LW) Chinese patients with Parkinson's disease (PD) and 26 controls. We found that the levels of these substances in LW patients were not significantly different from those in LU patients. In LU- and LW-PD patients, CSF epinephrine (EPI) was higher (P < 0.05) than that of the controls. 3-methoxy-DOPA (3-OMDOPA) might not inhibit the accumulation of 3,4-dihydroxyphenylalanine (DOPA) and dopamine metabolites in CSF. Levodopa treatment might change the dopaminergic and serotoninergic neuronal systems, but not the noradrenergic or adrenergic neuronal systems, in CNS of PD patients. Benserazide (a peripheral decarboxylase inhibitor) in Madopar might decrease the levels of serotonin (5-HT) and norepinephrine (NE), but not those of DOPA and homovanillic acid (HVA), in plasma. HVA, NE and EPI in plasma were not good indices for those in CSF. Otherwise, our results were consistent with some other studies by showing a significantly lower level (P < 0.01) of HVA in CSF of LU- and LW-PD patients than that of the controls, while no difference for NE, 3-methoxy-4-hydroxyphenylglycol (MHPG), 5-hydroxyindole acetic acid (5-HIAA) or 3-OMDOPA was noted. The severity of clinical disability was related to the deficiency of CSF HVA and DOPAC in LU- and LW-PD patients; however, there was no relationship between clinical symptoms of tremor, rigidity-bradykinesia, autonomic dysfunction, dementia, depression or levodopa-induced dyskinesia and CSF monoamines or their metabolites.
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PMID:Monoamines and their metabolites in plasma and lumbar cerebrospinal fluid of Chinese patients with Parkinson's disease. 833 58

Pergolide, along with bromocriptine and lisuride, is one of the most active dopamine receptor agonists. To determine whether or not pergolide protects against dopaminergic neuronal damage, via its activity on monoamine metabolism, we studied the effects of pergolide pretreatment on changes in monomaines and their metabolites in the mouse striatum after intracerebroventricular injection of 6-hydroxydopamine with pretreatment of desipramine. After intracerebroventricular administration of 6-hydroxydopamine (40 micrograms) in mice, the levels of dopamine and its metabolites (DOPAC, HVA) in the striatum rapidly decreased to 49%, 29% and 68%, respectively, of the naive controls at week 1 but then gradually recovered to control levels at weeks 2 and 4. Repeated pretreatment with pergolide (0.5 mg/kg, i.p.) for 7 days before administration of 6-hydroxydopamine, almost completely protected against reduction in striatal dopamine and its metabolites 1 week after injection of 6-hydroxydopamine. Therefore, pergolide could normalize the decreased dopamine synthesis or storage, and has a neuroprotective effect against dopaminergic dysfunction induced by the neurotoxin, 6-hydroxydopamine. Although we found that pergolide did not show radical scavenging activity in an in vitro system that generated hydroxyl radicals, it has been reported in vivo that pergolide treatment may induce Cu/Zn superoxide dismutase in the rat striatum. Considering these findings, pergolide may well be protective to dopaminergic neurons, largely because of its effects on presynaptic autoreceptors and on its induction of Cu/Zn superoxide dismutase. Further research on the neuroprotective effects of pergolide in Parkinson disease models, by injection of 6-hydroxydopamine, is needed to clarify its mechanism of action on dopaminergic indices.
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PMID:Protective effects of pergolide on dopamine levels in the 6-hydroxydopamine-lesioned mouse brain. 854 Jul 62

We have recently reported that treatment of gonadectomized female and male C57/B1 mice with the gonadal steroid hormone, estrogen, reduced nigrostriatal dopaminergic neurotoxicity resulting from the Parkinson's-like inducing agent 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP). In the present report we examined whether the predominantly male gonadal steroid hormone, testosterone, would similarly modulate MPTP-induced neurotoxicity. Male C57/B1 mice were assigned to one of the following five treatment conditions: (1) Intact, (2) Orchidectomized, (3) Intact + MPTP, (4) Orchidectomized + Testosterone + MPTP and (5) Orchidectomized + MPTP. Corpus striatal and olfactory tubercle dopamine. DOPAC and norepinephrine concentrations were determined from the animals within each of the five treatment conditions. Orchidectomy alone failed to alter striatal dopamine and DOPAC concentrations, with levels obtained being similar to that of Intact animals. MPTP treatment significantly reduced striatal reduced striatal dopamine and DOPAC concentrations, regardless of hormonal condition of the animal. Similar results were obtained for olfactory tubercle determinations, with the exception that DOPAC levels from Orchidectomized mice were significantly greater than Intact males. No significant differences were obtained for norepinephrine within either brain area sampled. These results show that unlike estrogen, testosterone is devoid of any capacity to modulate nigrostriatal dopaminergic neurotoxicity resulting from MPTP. These findings may be related to the gender differences which exist in the prevalence of Parkinson's disease.
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PMID:Effects of testosterone upon MPTP-induced neurotoxicity of the nigrostriatal dopaminergic system of C57/B1 mice. 873 29

When the nigrostriatal projection is partially destroyed in Parkinson's disease, remaining neurons fire more rapidly and accelerate synthesis and release of dopamine (DA) from endogenous tyrosine and levodopa. It was suggested that such surviving hyperactive nigral neurons can also enhance the utilization of exogenous levodopa and generate adequate amounts of functional dopamine molecules to correct the reduced nigrostriatal neurotransmission. DA agonists stimulate presynaptic DA receptors and suppress nigrostriatal firing rates. Many parkinsonians are treated with a combination of DA agonists and levodopa. This could theoretically suppress both discharge of surviving dopaminergic neurons and their ability to convert exogenous levodopa to dopamine. To test this possibility, rats were injected i.p. with lisuride, bromocriptine or apomorphine alone or one hour after levodopa and decapitated one hour later. The DA agonists suppressed striatal DOPAC and DOPAC/DA ratios indicating attenuation of basic DA turnover. DA agonists given with levodopa did not decrease the levodopa-induced elevations in striatal levodopa, DA and DOPAC. Findings suggest that agonists do not affect entry of levodopa from the circulation into brain and do not alter striatal generation of DA from exogenous levodopa despite inhibition of nigrostriatal firing. Therefore, utilization of levodopa does not seem to depend on the state of discharge rates of nigral neurons and effect of levodopa and DA agonists in Parkinson's disease is additive.
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PMID:Does treatment with dopamine agonists affect utilization of exogenous levodopa in the parkinsonian striatum? 874 9

Prior studies have documented functional and pathological compromise of the peripheral sympathetic nervous system in patients with Parkinson's disease, suggesting the possibility of reduced catecholamine release into the circulation. We measured free plasma catechols in early and untreated patients with Parkinson's disease, but found no evidence of reduced concentrations, compared to control subjects or a group of patients with probable Alzheimer's disease. Rather, there was a significant elevation of plasma norepinephrine within the Parkinson's disease group. Furthermore, 6 of 15 untreated Parkinson's disease patients (40%) displayed markedly elevated plasma concentrations of the catecholamine MAO metabolites, DOPAC or DOPEG. Despite this finding, platelet MAO-B activity measured in these and all other Parkinson's disease patients fell well within the range of the control subjects, and was also statistically similar to the group with Alzheimer's type dementia. Plasma dopa levels were similar in all groups, whereas the majority of patients in the three groups had plasma free dopamine and epinephrine concentrations below the limits of detection. These trends toward increased, rather than decreased, circulating catechol concentrations suggest that peripheral sympathetic nervous system catecholamine production and release is not severely compromised in patients with early Parkinson's disease. In addition, we were unable to confirm certain previous reports of elevated MAO-B activity in patients with Parkinson's or Alzheimer's diseases.
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PMID:Plasma catechols and monoamine oxidase metabolites in untreated Parkinson's and Alzheimer's diseases. 881 65

Rat models of Parkinson's disease typically employ a rapid nigral injection of 6-hydroxydopamine (6-OHDA) to produce a near-complete loss of nigrostriatal dopamine neurons, and thus, model end stage disease. The present report describes the use of a continuous, low dose infusion of 6-OHDA into the striatum which produces a terminal axotomy of nigrostriatal dopamine neurons and protracted behavioral response. A solution of 6-OHDA in 0.4% ascorbate, delivered at 37 degrees C from osmotic minipumps, was stable for 8 days as determined by its retained toxicity to a dopaminergic neuroblastoma cell line. The continuous infusion of 0.2 mu g 6-OHDA per h did not affect the striatal uptake of [3H]%GABA, [3H]choline, or [3H]glutamate but reduced [3H]dopamine uptake by 55% within 1.5 days after the start of the infusion. The striatal infusion of 6-OHDA produced a dose-dependent reduction of striatal dopamine and DOPAC levels but did not alter HVA, 5-HT, or 5-HIAA. An increase in amphetamine-induced ipsiversive rotations occurred within 1.5 days after the acute striatal injection of 20 mu g or 30 mu g of 6-OHDA but required 4 days to develop with the continuous 6-OHDA infusion. The topography of the lesion mapped by [3H]mazindol binding showed that, beginning by 1.5 days, a diffuse depletion of terminals encompassed much of the striatum in the 30 mu g acute injection group, whereas in the continuously infused rats, the lesion was apparent only by 4 days and was restricted to a smaller and more completely lesioned area. Unlike acutely lesioned animals, continuously infused rats revealed no obvious loss of dopamine neurons in the pars compacta by 5 weeks after 6-OHDA. The continuous striatal infusion of 6-OHDA can produce a topographically limited terminal axotomy of dopamine neurons and a protracted behavioral impairment.
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PMID:A continuous striatal infusion of 6-hydroxydopamine produces a terminal axotomy and delayed behavioral effects. 883 64

To date, few studies have systematically evaluated the most appropriate location for grafting catecholaminergic cells as a potential treatment for Parkinson's disease (PD). The following study was conducted to determine 1) if placement of catecholamine-secreting encapsulated PC12 cells into the lateral ventricle of 6-OHDA-treated rats is as effective as intrastriatal implants on reducing apomorphine-induced rotational behavior, and 2) to determine if the survival of encapsulated PC12 cells is differentially affected by the implant site. Polymerencapsulated PC12 cells were implanted into either the striatum or lateral ventricle of unilateral 6-OHDA-lesioned rats. Animals were tested for apomorphine-induced rotations over a 6-wk period. Only those animals that received intrastriatal implants of encapsulated PC12 cells showed a reduction in rotation behavior. Moreover, removal of the devices from the striatum resulted in a return to preimplant rotation levels. Postexplant neurochemical analyses demonstrated that the potassium-evoked L-dopa device output increased in vivo while the potassium-evoked dopamine output from the devices decreased over time in vivo. The location of the implant significantly affected catecholamine output from the PC12 cell-loaded devices. The increase in potassium-evoked L-dopa output was greatest, as was the decrease in potassium-evoked dopamine output, from those devices implanted in the striatum. Basal output of dopamine and DOPAC was also significantly higher from devices explanted from the lateral ventricle. These results demonstrate that the continued presence of intrastriatal implants of encapsulated PC12 cells is required to maintain the behavioral effects in 6-OHDA-lesioned rats. In addition, the site of implantation appears to affect device output. These results provide additional support for intraparenchymal delivery of L-dopa and dopamine via polymer encapsulation as a possible treatment for PD.
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PMID:Continued presence of intrastriatal but not intraventricular polymer-encapsulated PC12 cells is required for alleviation of behavioral deficits in Parkinsonian rodents. 888 17

Progression of Parkinson's disease has been associated with several biochemical changes in the substantia nigra including increased oxidative challenge, catechol oxidation, and inhibition of mitochondrial complex I activity. Cysteinylcatechols, formed by nucleophilic addition of cysteine to oxidized catechols, have been identified as markers of catechol oxidation in brain tissue. We have examined the neurotoxicity of a series of cysteinylcatechols. Of the compounds examined, only 5-S-cysteinyl-3,4-dihydroxyphenylacetate (cysdopac) was specifically cytotoxic to differentiated P19 neuroglial cultures. Cysdopac also was neurotoxic to pyramidal neurons in organotypic cultures of hippocampus, and this effect was ablated by selective N-methyl-D-aspartate (NMDA) receptor antagonists. In vitro, cysdopac was a potent inhibitor of mitochondrial complex I activity. However, electrophysiologic experiments failed to demonstrate NMDA receptor agonist activity for cysdopac, nor did cysdopac inhibit glutamate uptake. These results showed that cysdopac was the most potent neurotoxin of this series of cysteinylcatechols and suggest that cysdopac may function as an indirect excitotoxin, potentially via inhibition of mitochondrial respiration.
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PMID:Neurotoxicity of endogenous cysteinylcatechols. 939 47

Deprenyl is the only selective monoamine oxidase B (MAO-B) inhibitor that is in clinical use for the treatment of Parkinson's disease. Our previous studies showed that chronic treatment of rats with low (MAO-B selective) doses of deprenyl inhibited dopamine (DA) re-uptake and enhanced DA release in the striatum. These changes could affect DA synthesis rate by activation of negative feedback loops. Chronic deprenyl treatment has also been suggested to cause down-regulation of release-modulating DA receptors. The effects of chronic and acute treatment with deprenyl on ex vivo striatal tyrosine hydroxylase activity were therefore studied, by determination of steady-state tissue level of DOPA following administration of NSD-1015 (100 mg/kg i.p.). In addition, we assessed changes in the in vivo sensitivity of dopaminergic receptors from the reduction in DOPA extracellular level after systemic apomorphine administration (2.5 mg/kg s.c.), following elevation of microdialysate DOPA by systemic or local aromatic amino acid decarboxylase inhibition with NSD-1015. Chronic treatment with deprenyl (0.25 mg/kg s.c. daily for 21 days) caused a significant reduction in tyrosine hydroxylase activity to 60% of control, with no change in the apomorphine-induced reduction of microdialysate DOPA and DOPAC. The reduction in tyrosine hydroxylase activity is compatible with our previous results showing an increase in striatal DA extracellular level following chronic treatment with deprenyl. The increased extracellular striatal DA level could reduce tyrosine hydroxylase activity through activation of a negative feedback loop, by activation of either presynaptic or postsynaptic DA receptors.
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PMID:Reduced striatal tyrosine hydroxylase activity is not accompanied by change in responsiveness of dopaminergic receptors following chronic treatment with deprenyl. 942 34

Severe 6-hydroxydopamine (6-OHDA)-induced neostriatal dopamine (DA) depletion is generally held to be irreversible. Adult rats administered 6-OHDA soon after weaning, or neonatally, respectively model Parkinson's disease (PD) and Lesch-Nyhan syndrome (LNS). Prior studies in our laboratory indicate that prolonged training on incrementally more difficult fixed-ratio (FR) discriminations can reverse 'irreversible' 6-OHDA-induced neostriatal DA depletion in adult LNS rats. The present study evaluated the effects of such training on neostriatal DA depletion and its functional consequences in adult PD and control (vehicle-injected) rats. After recovery from 6-OHDA-induced hypophagia, rats were sacrificed to assess neostriatal DA depletion magnitude, or were food-deprived and either subjected to food-maintained operant FR discrimination training or allowed to remain in their home cages. 6-OHDA treatment antagonized amphetamine (AMP)-induced increases in brief rearing behavior and locomotor activity in 3-month-old PD rats prior to training, and reduced operant response rates throughout training without affecting learning rates. One week after training, AMP-increased locomotor and brief-rearing frequencies were augmented in all groups except trained controls, and the prior inhibitory effect of 6-OHDA treatment on AMP-increased behavioral frequencies was essentially eliminated. Cumulative apomorphine (APO) dose-effect curve (0.1-3.2 mg/kg) construction 3 weeks post-training revealed that 6-OHDA treatment abolished APO-induced intense licking behavior. However, training eliminated the hyperresponsiveness of 6-OHDA-treated rats to the locomotor- and brief-rearing stimulant effects of APO but did not affect the depletion of neostriatal DA. Nevertheless, 6-OHDA-induced increases in neostriatal DOPAC/DA and HVA/DA ratios were normalized by age/food-deprivation while that of 3MT/DA was not. These findings suggest that training reduces the functional responsiveness of at least some central DA receptors, FR discrimination training could be a useful adjunct to PD replacement therapy and that the neostriatal DA-repleting action of training in 6-OHDA-treated rats depend on the age at which 6-OHDA is administered.
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PMID:Fixed-ratio discrimination training as replacement therapy in Parkinson's disease: studies in a 6-hydroxydopamine-treated rat model. 947 87

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