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)

To estimate the effect of long-term administration of L-3,4-dihydroxyphenylalanine (L-Dopa) on methylation of compounds not formed from it, the urinary excretion of histamine and its methylated metabolites was studied in rats and guinea pigs fed L-Dopa in their diets and in patients with Parkinson's disease being treated with L-Dopa. In the guinea pigs, but not in the rats, L-Dopa administration decreases excretion of histamine and of its methylated metabolites, methylhistamine and 1-methylimidazole-4-acetic acid. Because excretion of 1-methylimidazole-5-acetic acid, which comes from the diet and is not a metabolite of histamine, was unaffected by the L-Dopa treatment, the decreases were due to a specific effect of L-Dopa on histamine metabolism. When compared to normal control subjects, patients with Parkinson's disease excreted less histamine and methylhistamine, both before and during treatment with L-Dopa. Administration of the peripheral aromatic L-amino acid decarboxylase inhibitor, L-alpha-methyldopa hydrazine (MK 486), decreased urinary excretion of histamine markedly. Neither L-Dopa nor MK 486 appeared to influence excretion of the imidazoleacetic acids in the patients. The results suggest that L-Dopa may decrease histamine formation or release in some species but that it does not influence histamine methylation.
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PMID:Effect of L-DOPA on endogenous histamine metabolism. 115 52

The source and site of the DOPA decarboxylation to dopamine in Parkinson's disease (PD) and animal models of PD are controversial. Since most of aromatic L-amino acid decarboxylase (AADC) are lost along with the degenerating dopaminergic neurons, we addressed the possibility that other decarboxylases or a novel protein that is structurally different from AADC decarboxylate L-DOPA in the denervated striatum. Immunotitration of the extracts from the denervated striatum with AADC antibody showed that all activity can be attributed to AADC-immunoreactive protein. We then investigated if there are non-dopaminergic intrinsic striatal neurons that express AADC. No evidence of such neurons was noted by immunocytochemistry and in situ hybridization.
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PMID:Dopa-decarboxylation in the striata of rats with unilateral substantia nigra lesions. 148 Mar 24

Cerebral uptake and utilization of levodopa was measured in eight patients with idiopathic Parkinson's disease (PD) by [beta-11C]-L-DOPA and positron emission tomography (PET). By adding pharmacological doses of unlabelled levodopa to the radioactive solution it was possible to evaluate the clinical effect simultaneously with the cerebral kinetics of the drug. Additionally, in two of the patients with advanced PD, investigations with the dopamine re-uptake blocker [11C]-(+)-nomifensine and PET were carried out to get a measure of the density of striatal dopaminergic nerve-terminals. The brain uptake of [beta-11C]-L-DOPA was inversely correlated to the sum of large neutral amino acids in plasma. In the eight PD patients studied with [beta-11C]-L-DOPA striatal k3, which reflects the ability for striatal tissue to decarboxylate the tracer by the action of aromatic L-amino acid decarboxylase (AADC), was decreased 35% compared to healthy subjects. It was demonstrated that, in the patients with advanced PD and motor fluctuations on oral L-DOPA medication, reversal of parkinsonian symptoms occurred at very low striatal tissue dopamine concentrations. In the two very advanced patients studied with [11C]-(+)-nomifensine the striatal binding of the tracer was 50% reduced.
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PMID:Cerebral uptake and utilization of therapeutic [beta-11C]-L-DOPA in Parkinson's disease measured by positron emission tomography. Relations to motor response. 157 95

Positron emission tomography (PET) following intravenous administration of beta-[11C]-L-DOPA provides a method of assessing regional cerebral uptake and utilization of levodopa. Cerebral levodopa kinetics in the rhesus monkey were investigated after the inhibition of catechol-O-methyltransferase (COMT) with RO 40-7592, and after coadministration of the peripheral aromatic L-amino acid decarboxylase (AADC) inhibitors benserazide and carbidopa. Pretreatment with RO 40-7592 (10 mg/kg), benserazide (10 mg/kg) or carbidopa (3.5 mg/kg) did not change striatal k3, which mainly reflects the ability for the brain tissue to convert [11C]-L-DOPA to [11 C]-dopamine, although the brain's uptake of radioactivity increased substantially after pretreatment with the AADC inhibitors. When benserazide was coadministered with RO 40-7592 (10 mg/kg) a dose-dependent decrease in striatal k3 was measured with an apparent ED50 of 3 mg/kg. No such effect was indicated after pretreatment with the combination of RO 40-7592 (10 mg/kg) and carbidopa (3.5 mg/kg). The possible negative interactions of coadministration with COMT inhibitors and predominantly peripherally acting AADC inhibitors must be considered when used in the therapy of Parkinson's disease.
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PMID:Central action of benserazide after COMT inhibition demonstrated in vivo by PET. 186 35

In this study, concentrations of homovanillic acid (HVA), a principal metabolite of dopamine (DA), in the cerebrospinal fluid (CSF) were measured in 17 patients with Parkinson's disease (PD) who had been effectively treated with L-DOPA and in 8 patients clinically diagnosed as having striatonigral degeneration (SND) and for whom treatment with L-DOPA had proved ineffective. L-DOPA administration, consisting of a daily dosage of 600 mg plus 150 mg aromatic L-amino acid decarboxylase inhibitor was continued in all cases for at least 3 months. In the PD group, the HVA value was 511.6 +/- 196.5 pmol/ml and in the SND group, 144.9 +/- 83.4 pmol/ml. This remarkably low value for the SND group suggests that there may exist severe disorders in the uptake and decarboxylation of exogenous L-DOPA.
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PMID:Unresponsiveness to L-DOPA in parkinsonian patients: a study of homovanillic acid concentration in the cerebrospinal fluid. 247 87

We investigated the effect of systemic administration of gamma-glutamyl L-3,4-dihydroxyphenylalanine (gamma-Glu-DOPA) on catecholamine contents in the brain. gamma-Glu-DOPA was transformed to dopamine (DA) in vitro with brain homogenate by the sequential action of gamma-glutamyl transpeptidase and aromatic L-amino acid decarboxylase. Intraperitoneal injection of gamma-Glu-DOPA to mice increased DA markedly and noradrenaline (NA) moderately in the brain. The increase of endogenous DA was followed by elevation of the main DA metabolites (3,4-dihydroxyphenyl-acetic acid and homovanillic acid). These increases were in a dose-dependent manner. The maximal elevation of DA was observed within 30 min after administration of gamma-Glu-DOPA, but a substantial increase of NA was observed 2 h after the administration. These results suggest that gamma-Glu-DOPA may be applicable to the treatment of Parkinson's disease.
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PMID:Increase of catecholamines in mouse brain by systemic administration of gamma-glutamyl L-3,4-dihydroxyphenylalanine. 311 8

The combinations of benserazide and levodopa (1:4, Madopar) and of carbidopa and levodopa (1:10 and 1:4, Sinemet) are currently the most effective treatment of Parkinson's disease. In the present comparative study some effects of the peripheral aromatic L-amino acid decarboxylase (AADC) inhibitors benserazide and carbidopa administered alone or in combination with levodopa by the oral route were investigated in two animal species (rat and mouse) and in healthy volunteers. Benserazide is about 10 times more potent than carbidopa as inhibitor of peripheral AADC both in animals and man. Even at relatively high doses (up to 60 mumol/kg p.o.) benserazide is shown in animals to inhibit the decarboxylation of levodopa only in the extracerebral tissues, thus permitting the formation of dopamine in the striatum and in the hypothalamus. As benserazide is the most potent peripheral AADC inhibitor presently available, is well tolerated and relatively nontoxic even when used chronically, it appears to be the peripheral AADC inhibitor of choice for the development of controlled-release formulations in which Dopa is combined with a peripheral AADC inhibitor. When administered to healthy subjects the pharmacokinetics of the new drug delivery system named Madopar HBS (hydrodynamically balanced system) was characterized by lower and delayed plasma peak concentrations but a longer-lasting concentration of Dopa than after Madopar standard. Therefore, this new controlled-release system may reduce the clinical fluctuations occurring in patients with 'wearing-off' and 'on-off' phenomena.
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PMID:Inhibition of decarboxylase and levels of dopa and 3-O-methyldopa: a comparative study of benserazide versus carbidopa in rodents and of Madopar standard versus Madopar HBS in volunteers. 312 42

DL-threo-3,4-Dihydroxyphenylserine (DOPS) is increasingly being investigated for treatment of disorders involving defects of the sympathetic nervous system, such as Parkinson's disease, Shy-Drager syndrome and congenital dopamine-beta-hydroxylase deficiency. Whilst L-DOPS is converted by aromatic L-amino acid decarboxylase into natural norepinephrine in vitro, D-DOPS inhibits this process. There are no data on the interaction between D- and L-DOPS in vivo because a reliable method for the measurement of the D- and L-enantiomers in plasma and urine is lacking. We describe here such a method based on reversed-phase chromatography after derivatization with o-phthaldialdehyde and N-acetyl-L-cysteine. Good separation was achieved with this procedure (resolution factor 2.33). Two simple and sensitive methods are also presented for total D,L-DOPS estimation, based on reversed-phase chromatography with electrochemical detection after either deproteinization (DP) or liquid-liquid extraction (LE) as sample preparation steps. The two methods gave identical results (regression line DOPS (DP) = 1.026 DOPS (LE) + 33.28; r = 0.997; n = 52). Excellent agreement was found between the sum of the D- and L-DOPS concentrations and the measured total D,L-DOPS concentration (regression line DOPS (D + L) = 0.955 DOPS (total, LE) + 116.65; r = 0.992; n = 100).
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PMID:Determination of D,L-threo-3,4-dihydroxyphenylserine and of the D- and L-enantiomers in human plasma and urine. 313 37

1. Selective inhibitors of the monoamine oxidase (MAO) isoenzymes, types A and B, are of potential therapeutic utility. Brain selectivity would overcome the risk of tyramine interactions which have been shown to occur with selective MAO-A but not MAO-B inhibitors. 2. (E)-3-Fluoroallylamines of general structure, FHC = C(R)CH2NH2 have been designed as enzyme-activated, irreversible inhibitors of these enzymes. Two compounds, MDL 72145 (R = 3,4 dimethoxyphenyl) and MDL 72974 (R = 4-fluorophenethyl), are selective and irreversible inhibitors of MAO type B which in vivo show high inhibitory potency against the rat brain enzyme (ED50 0.35 and 0.18 mg/kg p.o., respectively). In animals, these inhibitors do not potentiate the cardiovascular effects of tyramine and have no amphetamine-like effects. However, they do potentiate the central effects of L-Dopa and prevent the neurotoxic effects of MPTP in both mice and monkeys. 3. In early clinical studies, MDL 72145 has been shown to be a potent, long-acting inhibitor of MAO type B. Doses of 16 mg per patient totally inhibit platelet enzyme without potentiating the cardiovascular effects of oral tyramine. Compounds of this type should prove useful in Parkinson's disease. 4. Selective inhibition of brain MAO-A can be achieved by using the bioprecursor amino acid MDL 72394 (E-beta-fluoromethylene-m-tyrosine). This amino acid is decarboxylated by aromatic L-amino acid decarboxylase (AADC) to liberate MDL 72392 (R = 3-hydroxyphenyl), a potent irreversible inhibitor of MAO-A. Combination of MDL 72394 with a peripherally selective inhibitor of AADC (e.g., carbidopa) restricts MAO inhibition to the brain. Consequently, under these conditions, there is a greatly reduced propensity to potentiate the cardiovascular effects of tyramine. 5. This has been confirmed in human volunteers; MDL 72394 (8 mg), combined with carbidopa, substantially decreased urinary MHPG and plasma DHPG concentrations with minimal potentiation of the cardiovascular effects of i.v. tyramine. These results predict that such therapy has potential in the treatment of affective disorders.
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PMID:Design and early clinical evaluation of selective inhibitors of monoamine oxidase. 326 32

N-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) has been reported to cause chronic Parkinsonism in humans, primates, and long lasting striatal dopamine depletion in mice. Acute animal models thus produced closely resemble Parkinson's disease. There are, however, two major differences. The one is a lack of Lewy bodies and the other is that norepinephrine system is relatively well preserved in the model. So the acute animal model is better considered a nigrostriatal dopamine deficiency model. We have produced another model by adding N-2-chloroethyl-N-ethyl-2-bromobenzyl-amine (DSP4) to MPTP. This material is known to produce selective destruction of norepinephrine terminal in the central nervous system as well as in the periphery. Both norepinephrine system and dopamine system are severely depressed in this model, and the functional role of norepinephrine system was investigated by comparing two models. 90 male C57 black mice weighing 20-25 grams were used. MPTP (Aldrich) was dissolved in sterile distilled water with 5% ethanol solution. Experimental animals were divided into three groups. i) control group; in this group animals received vehicles alone. ii) MPTP group; in this group, mice received daily i.p. doses of MPTP 30 mg/kg for consecutive 10 days, thus total doses of MPTP was 300 mg/kg. iii) MPTP & DSP4 group; in this group animals received daily i.p. doses of MPTP 30 mg/kg for consecutive 10 days and at the last day of MPTP injection they received DSP4 50 mg/kg i.p.. 7 to 14 days after the last injection of MPTP both treated and control mice received an intraperitoneal injection of L-DOPA (200 mg/kg & aromatic L-amino acid decarboxylase mg/kg) and the effect of this drug on three groups were investigated by using behavioral, biochemical and histofluorescence method. Histofluorescence studies by GA-FAS method revealed severe reduction of nigrostriatal dopamine in MPTP treated mice. Mesolimbic and mesocortical dopamine systems seemed relatively preserved. There was no apparent changes in locus coeruleus norepinephrine system. In MPTP & DSP4 treated mice marked reduction of norepinephrine terminal fluorescence as well as nigrostriatal dopamine system was observed. Chemical analysis of norepinephrine and dopamine by HPLC confirmed histofluorescence studies. Behavioral studies were analyzed by Automex locomotor activity meter. Marked increase of locomotor activity was observed in MPTP treated mice after L-DOPA administration.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:[A mouse model of N-methyl-4-phenyl-1,2,3,6-tetrahydropyridine induced parkinsonism: effect of norepinephrine terminal destruction]. 331 16


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