Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

The neurotoxin 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) has been shown to induce parkinsonism in man and non-human primates. Hypotheses concerning the mechanism of action of MPTP have been related to the pathogenesis of nigral cell death in Parkinson's disease. For instance, alterations of calcium influxes have been reported to be implicated in both MPTP-induced parkinsonism and Parkinson's disease. Recently, we reported that nimodipine, a blocker of L-type calcium channels, prevents dopaminergic MPTP-induced neurotoxicity in C57B1/6 black mice. The present study extended these rodent findings to the non-human primate model of Parkinson's disease and assessed the effects of nimodipine, continuously applied by pellet for 18 days, on behavioural, biochemical and histological parameters, following systemic application of MPTP in common marmosets (Callithrix jacchus). The experimental design involved five groups of common marmosets and a total of 24 animals. Monkeys assigned to group I (n = 4) received subcutaneously implanted vehicle pellets 7 days prior to subcutaneous saline injections (control). Monkeys of group II (n = 4) were treated with nimodipine pellets (80 mg) and saline injections. Marmosets in group III (n = 8) were treated with vehicle pellets and received 4 times MPTP (MPTP-HCl, 2 mg/kg body weight subcutaneously, separated by an interval of 24 h for a total of 4 days). Monkeys in group IV (n = 4) and V (n = 4) were treated as group-III animals except for the implantation of nimodipine pellets (80 mg and 120 mg, respectively) 7 days prior to toxin exposure. In common marmosets MPTP induced severe parkinsonian symptoms, a pronounced dopamine depletion in the caudate-putamen (more than 99% of control) and a loss of tyrosine hydroxylase immunoreactive cells in the substantia nigra (50% percent of control) 7 days after MPTP-administration. Pretreatment with nimodipine (120 mg pellets) did neither attenuate the behavioural impairments in MPTP-treated animals nor antagonize the striatal neurotoxin-induced dopamine depletion, but almost completely prevented (in a dose-dependent manner) the MPTP-induced decrease of nigral tyrosine hydroxylase immunoreactive cells. These data suggest that application of nimodipine, during the observation period of 7 days, protects against MPTP-induced neurotoxicity in common marmosets at the cellular nigral level, but not at the synaptic striatal level, implicating differential mechanisms of actions of MPTP-induced neurotoxicity at the nigral versus the striatal level.
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PMID:1-Methyl-4-phenyl-1,2,3,6-tetrahydropyridine-induced neurotoxicity in non-human primates is antagonized by pretreatment with nimodipine at the nigral, but not at the striatal level. 900 22

Conjugates of the catechol compounds, L-dihydroxyphenylalanine (L-DOPA), dopamine and dihydroxyphenylacetic acid in human urine were analysed using the isocratic ion-pair reversed-phase HPLC method with electrochemical detection. Acid hydrolysis, using 4 mol/l HCl for 60 min, was more effective than treatment with sulphatase for the generation of free catechols. Free (non-conjugated) catechols already present, as well as those produced by either of the hydrolysis procedures, were adsorbed onto aluminium oxide and extracted in acid solution. The repeatability of the technique for within and between-batch urine analysis was less than 2% and 8%, respectively. Free urinary dopamine (and dihydroxyphenylacetic acid) concentrations were much higher in the urine of patients treated with L-DOPA for Parkinson's disease than in healthy volunteers. At high dopamine (and dihydroxyphenylacetic acid) levels the conjugation capacity was apparently exceeded, since the overall percent conjugation of L-DOPA, dopamine and dihydroxyphenylacetic acid was decreased "concentration dependently" where the concentrations of free catechols were increased. Both in the control group and L-DOPA-treated groups, enzymatic hydrolysis was much less effective than acid hydrolysis in generating free catechols. This indicated that there were other, non-sulphated conjugates in the urine, accounting for between 66 and 100% of total conjugates.
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PMID:Optimization of the hydrolysis of conjugated L-DOPA, dopamine and dihydroxyphenylacetic acid in human urine for assay by high-performance liquid chromatography with electrochemical detection. 912 45

Lipid peroxidation is a major consequence of oxidative stress and an important cause of neuronal damage in ischaemic injuries and neurodegenerative disorders such as Parkinson's disease. Recent research has focused on the development of antioxidant drugs which may delay or minimize neurodegeneration. Rapid and reliable assays are therefore necessary in order to evaluate novel antioxidant compounds. A widely adopted method for measurement of lipid peroxidation is the thiobarbituric acid reacting substances (TBARS) assay. Several variations of this method have appeared in the literature, some of which have been tested by us without success. We have therefore established a reliable procedure which takes into account the most important factors previously found to influence the TBARS method. Briefly, various concentrations of drug were added to rat brain homogenates (10% w/v in 20 mM Tris-HCl buffer, pH 7.4) and incubated at 37 degrees C for 10 min before addition of ammonium ferric sulphate (100 or 1000 microM) and a further incubation at 37 degrees C for 30 min. Proteins were then precipitated with 8.1% sodium dodecyl sulphate, the reaction stopped with 20% acetic acid, and the samples were then centrifuged for 15 min. Aliquots of supernatant were added to an equal volume of thiobarbituric acid (0.8%), samples were heated at 95 degrees C for 30 min, and then cooled on ice before reading at 532 nm. The present adaptation represents a simple and highly reproducible assay which does not require difficult extraction procedures with hazardous chemicals and results in a stable chromagen. The method has been evaluated using a number of structurally distinct antioxidants and iron chelators. IC50 values (microM) for percentage inhibition of TBARS formation were as follows: desferroxamine (1.1), U83836E (1.7), butylated hydroxytoluene (13), U74500A (20), LY231617 (22), idebenone (89), and Trolox (110). This order of potency was comparable to that found with a commercially available, but expensive kit designed to specifically measure malondialdehyde (Spearman's rank correlation coefficient, p < 0.01).
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PMID:A reliable procedure for comparison of antioxidants in rat brain homogenates. 974 90

Common marmosets show parkinsonian motor deficits following 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) administration and develop dyskinesias during chronic L-dopa exposure. The D1 agonists A-77636 [(1R, 3S) 3-(1'-adamantyl)-1-aminomethyl-3, 4-dihydro-5, 6-dihydroxy-1H-2-benzopyran HCl] and A-86929 [(-)-trans 9, 10-hydroxy-2-propyl-4, 5, 5a, 6, 7, 11b-hexahydro-3-thia-5-azacyclopent-1-ena[c]phenanthrene hydrochloride] possess potent antiparkinsonian activity in the MPTP-treated marmoset and we now assess their influence on L-dopa-induced dyskinesias. MPTP-treated marmosets with stable motor deficits were treated with L-dopa plus carbidopa for 28 days to induce dyskinesias. Subsequently, they received A-86929 for 10 days, initially at 0.5 micromol/kg and then at 1.0 micromol/kg for a further 5 days. Several months later, L-dopa 12.5 mg/kg plus carbidopa 12.5 mg/kg was given orally twice daily for 7 days, followed by A-77636 1 micromol/kg for 10 days, and then both A-77636 and L-dopa plus carbidopa were given concurrently for 3 further days. In these L-dopa-primed animals, A-86929 effectively reversed akinesia and produced dose-dependent dyskinesias which were significantly less intense than those produced by L-dopa administration. A degree of behavioral tolerance was encountered, but antiparkinsonian activity was preserved and elicited behaviour was free of hyperkinesis and stereotypy and more naturalistic than that seen with L-dopa. After a week of twice-daily L-dopa dosing, administration of the long-acting D1 agonist A-77636 initially dramatically enhanced locomotion and reproduced dyskinesia with prominent dystonia, but after repeated administration of A-77636, dyskinesia and in particular chorea, gradually disappeared. Tolerance to locomotor stimulation greater than with A-86929 occurred, although activity remained significantly above baseline levels. There was a marked reduction in L-dopa-induced climbing, stereotypy and hyperkinesis and behaviour more closely resembled that of normal unlesioned marmosets. Upon reintroduction of L-dopa concurrently with continued A-77636 administration, dystonic, but virtually no choreic dyskinesias appeared and behaviour was once again free of stereotypy and hyperkinesis, contrasting dramatically with the presence of these behaviours along with abundant chorea when L-dopa is given alone. These results show a lesser liability of A-86929 and A-77636 to reproduce dyskinesia in L-dopa-primed MPTP-lesioned subjects while maintaining effective antiparkinsonian activity and producing a more naturalistic motor response. The differential effects of A-77636 on chorea and dystonia, with suppression of chorea and stereotypy on co-administration with L-dopa, may reflect an altered balance of activity in the direct and indirect striatofugal pathways. These results suggest a possible role for D1 agonists in the treatment of Parkinson's disease.
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PMID:Actions of the D1 agonists A-77636 and A-86929 on locomotion and dyskinesia in MPTP-treated L-dopa-primed common marmosets. 1010 82

Injection of the endogenous methyl donor, S-adenosyl methionine (SAM), into rat brain induces Parkinson's disease (PD)-like symptoms possibly by stimulating deleterious protein methylation. Gel-filtration chromatography of rat brain extracts treated with [3H-methyl]-SAM revealed the presence of radioactive peaks with apparent molecular weights of about 5 kDa. Treatment with guanidine HCl altered the elution volumes of the labeled peaks. Lyophilized peak fractions released volatile 3H-methanol on incubation with NaOH, indicating the presence of carboxyl methyl esters. Because prenylated proteins are avid methyl acceptors at the terminal carboxylic acid groups, 1 micromol S-farnesylcysteine (FC) analogs blocked the SAM-induced tremors in the experimental rats. FC analogs did not only reverse the associated rigidity, abnormal posture, and hypokinesia, but stimulated hyperactivity in the animals. This amphetamine-like effect was monitored for 20 min in an animal activity monitor and movement times between 400 +/- 100 and 560 +/- 125 s covering distances between 78 +/- 29 to 125 +/- 35 m were recorded for rats treated with FC analogs with or without SAM. Control animals moved only for 60 +/- 13 s covering about 6 +/- 1 m, indicating a 7-9-fold and 13-21-fold increase in duration of movement and distance covered, respectively. N-Acetyl-S-farnesylcysteine (AFC) potentiated amphetamine-induced ipsiversive rotation of 6-hydroxydopamine-lesioned rats from 390 +/- 130 to 830 +/- 110, with AFC alone having no significant effect on net rotation compared to controls. These data indicate that intracerebroventricular injection of SAM may induce PD symptoms by interfering with the methylation/demethylation homeostasis of prenylated proteins that function in the dopaminergic and other signaling pathways, and that the FC analogs may counteract the SAM effects by acting synergistically on events subsequent to neurotransmitter release.
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PMID:Farnesyl-L-cysteine analogs block SAM-induced Parkinson's disease-like symptoms in rats. 1097 24

To investigate the impact of strain and sex in the l-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) animal model of Parkinson's disease, C57BL/6 and BALB/c mice were treated with either systemic MPTP-HCl (4 x 15 mg/kg) or saline and were examined in a number of behavioral tests. Furthermore, neostriatal and ventral striatal monoamine contents were determined, and the numbers of tyrosine hydroxylase-immunostained cells were counted in the substantia nigra and ventral tegmental area. Open-field testing showed that locomotor activity was drastically reduced as an acute effect of MPTP in both strains; however, subsequent recovery to control levels was faster in BALB/c mice than in C57BL/6. Nest building also indicated strain-dependent effects, since it was delayed only in C57BL/6 mice treated with MPTP. The other tests (grip test, pole test, rotarod, elevated plus-maze), although partly sensitive for over-all strain or gender differences, turned out not to be useful to compare MPTP effects in these two strains. Neurochemically, MPTP led to more severe neostriatal dopamine depletions in C57BL/6 (-85%) than in BALB/c mice (-58%). Histologically, a loss of tyrosine hydroxylase immunoreactivity (-25%) was observed only in the substantia nigra of C57BL/6 animals. Thus, our analysis consistently showed that the C57BL/6 mouse strain is more susceptible to MPTP than the BALB/c strain. Sex differences in MPTP sensitivity were not observed in our mice. The implications of these findings for the search for genes related to susceptibility to neurodegeneration are discussed.
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PMID:MPTP susceptibility in the mouse: behavioral, neurochemical, and histological analysis of gender and strain differences. 1110 91

The E isomer of (123)I-2beta-carbomethoxy-3beta-(4-fluorophenyl)-N-(1-iodoprop-1-en-3-yl)nortropane (Altropane(R)) shows high affinity (IC(50) = 6.62 +/- 0.78 nmol) and selectivity (DA/5-HT = 25) for DAT sites in the striatum. Recently, dynamic SPECT studies in healthy volunteers and patients with Parkinson disease demonstrated that the kinetics of striatal accumulation followed a pattern that is characteristic of a reversible tracer with maximal accumulation within 30 min after injection. These findings suggested that radiolabeling Altropane with [(11)C] might provide an equivalent and complementary tracer for PET studies. [(127)I] Altropane was treated with HCl to hydrolyze the methyl ester bond and yield a precursor for [(11)C] labeling. Introduction of an [(11)C] methyl ester group was achieved by treatment with [(11)C] CH(3)I followed by HPLC purification. Five healthy rhesus monkeys were injected with approximately 10 mCi of [(127)I,(11)C] Altropane and dynamic PET images were acquired over 90 min. Arterial blood samples were collected in parallel with imaging and metabolite analysis was performed by HPLC. The PET and metabolite corrected arterial blood data were to calculate k(3)/k(4) by two methods: 1) nonlinear least-squares fitting, and 2) a linear graphical method for reversible ligands. The synthetic procedure yielded high specific activity tracer, >1,000 mCi/micro mole, with radiochemical purity >95%. Synthesis time was approximately 30 min. The PET images revealed excellent striatal definition, with clear separation of caudate nucleus and putamen and minimal accumulation in brain regions with high 5HT transporter density. Metabolite analysis demonstrated that at 60 min after injection, approximately 80% of circulating tracer was intact [(127)I,(11)C] Altropane and the remainder was converted to polar metabolites. Values for k(3)/k(4) calculated by two analysis methods were remarkably similar: Method 1, 3.48 +/- 0.41; Method 2, 3.77 +/- 0.45 (mean +/- SEM, t = 2.31, df = 8, P = 0.64). These results establish that Altropane has the important characteristics of: 1) rapid and specific striatal binding; 2) high selectivity for DA vs. 5-HT transporter sites; 3) reversible binding kinetics; 4) potential for multiple injection studies; 5) high efficiency labeling with either [(11)C] or [(123)I]; 6) applicability for both PET and SPECT. These properties make Altropane an important DAT ligand for both research and clinical applications.
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PMID:[(11)C, (127)I] Altropane: a highly selective ligand for PET imaging of dopamine transporter sites. 1116 84

Systemic administration of immunophilin ligands provides trophic influences to dopaminergic neurons in rodent models of Parkinson's disease (PD) resulting in the initiation of clinical trials in patients with Parkinson's disease. We believe that prior to clinical trials, novel therapeutic strategies should show safety and efficacy in nonhuman models of PD. The present study assessed whether oral administration of the immunophilin 3-(3-pyridyl)-1-propyl (2S)-1-(3,3-dimethyl-1,2-dioxopentyl)-2-pyrrollidinecarboxylate (GPI 1046) could prevent the structural and functional consequences of n-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) administration in nonhuman primates. Twenty-five rhesus monkeys received daily oral administration of vehicle (n = 5) or one of four doses of GPI 1046 (0.3 mg/kg, n = 5; 1.0 mg/kg, n = 5; 3.0 mg/kg, n = 5; 10.0 mg/kg, n = 5). Two weeks after starting the drug treatment, all monkeys received a unilateral intracarotid injection of MPTP-HCl (3 mg). Daily drug administration continue for 6 weeks postlesion after which time the monkeys were sacrificed. Monkeys were assessed for performance on a hand reach task, general activity, and clinical dysfunction based on a clinical rating scale. All groups of monkeys displayed similar deficits on each behavioral measure as well as similar losses of tyrosine hydroxylase (TH)-immunoreactive (ir) nigral neurons, TH-mRNA, and TH-ir striatal optical density indicating that in general treatment failed to have neuroprotective effects.
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PMID:Systemic administration of the immunophilin ligand GPI 1046 in MPTP-treated monkeys. 1117 Jul 32

Parkinson's disease (PD) is characterized by progressive degeneration of nigrostriatal dopaminergic neurons. Several factors such as inhibition of the mitochondrial respiration, generation of hydroxyl radicals and reduced free radical defense mechanisms causing oxidative stress, have been postulated to contribute to the degeneration of dopaminergic neurons. 1-Methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) treated animals is a useful experimental model of PD, exhibiting most of the clinical features, as well as the main biochemical and pathologic symptoms of the disease. In the present study, we have examined a dopaminergic (D1) receptor agonist, SKF-38393 HCl (SKF) for its possible neuroprotective action against MPTP-induced insults on dopaminergic neurons. MPTP is converted by monoamine oxidase-B (MAO-B) to its neurotoxic metabolite 1-methyl-4-phenyl-pyridinium (MPP+), which is then taken up into the dopaminergic neurons. SKF-38393 had no effects either on total or monoamine oxidase B in the striatum. SKF-38393 blocked the MPTP-induced depletion of glutathione and attenuated MPTP-induced depletion of dopamine. Furthermore, it enhanced the activity of superoxide dismutase and hence mimicked the action of selegiline. The results of these studies are interpreted to suggest that SKF-38393 may prove a valuable drug in the treatment of Parkinson's disease.
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PMID:SKF-38393, a dopamine receptor agonist, attenuates 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine-induced neurotoxicity. 1117 70

The neuropathology associated with Parkinson's disease within and around the substantia nigra is thought to involve excessive production of free radicals, dopamine autoxidation, defects in the expression of glutathione peroxidase, attenuated levels of reduced glutathione, altered calcium homeostasis, excitotoxicity and genetic defects in mitochondrial complex I activity. While the neurotoxic mechanisms are vastly different for excitotoxins and N-methyl-4-phenylpyridinium ion (MPP+), both are thought to involve free radical production, compromised mitochondrial activity and excessive lipid peroxidation. In the present study, several dietary antioxidant compounds, monoamine oxidase inhibitors and ergogenic compounds were examined for protective action against neurotoxicity induced by L-glutamate (15 mM) or MPP+-HCl (5 mM) in a plastic adhering variant of murine pheochromocytoma cells. The results show no significant protective effects exhibited by azulene, (+)-catechin, curcrumin, (-)-epigallocatechin gallate, green tea, morin, pygnogenol, silymarin, clove oil, garlic oil or rosemary, extract. Compounds, which were effective in providing protection against L-glutamate-induced cell death, were coenzyme Q-0, coenzyme Q-10, L-deprenyl and N-acetyl-L-cysteine. Compounds, which provided protection against MPP+-HCl toxicity, were allopurinol, coenzyme Q-10, L-deprenyl, N-acetyl-L-cysteine and sesame oil. In both models, significant protection was achieved in the presence of coenzyme Q-10, L-deprenyl and N-acetyl-L-cysteine. These results indicate that the mechanism of cell death in both of these toxicity models is most likely not related to the destructive effects of free radicals.
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PMID:Effect of antioxidants on L-glutamate and N-methyl-4-phenylpyridinium ion induced-neurotoxicity in PC12 cells. 1140 59


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