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)

Since the discovery that the loss of the dopaminergic innervation of the striatum resulted in Parkinson's disease, physiologists have attempted to understand the role of dopamine on striatal activity. Hypotheses relying upon concepts derived from studies of fast synaptic transmission have consistently failed to explain the actions of dopamine or other receptors coupled to G-proteins which modulate the properties of voltage-dependent ionic conductances responsible for synaptic integration and spike activity. Recently, patch clamp studies have revealed that in medium spiny striatal neurons dopamine D1-class receptors modulate voltage-dependent Na+, K+ and Ca2+ channels. From a consideration of the biophysical properties of these channels and the state transitions that medium spiny neurons undergo while responding to cortical input, a novel picture of dopamine's actions is beginning to emerge. Our results and those of others suggest that D2-class receptors serve to make the transition to the depolarized 'upstate' from the hyperpolarized 'downstate' more probable in response to cortical input. But, once the transition has occurred, the alteration in excitability should be short-lived unless the neuron has recently been active. This state-dependent modulation provides a mechanism by which dopamine could shape global striatal activity governing the execution of motor behaviors.
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PMID:State-dependent regulation of neuronal excitability by dopamine. 920 32

An endogenous parkinsonism-preventing substance, 1-methyl-1,2,3,4-tetrahydroisoquinoline, is enzymatically formed from 2-phenethylamine and pyruvate in rat brain. The enzyme involved was localized in the mitochondrial-synaptosomal fraction of rat brain, solubilized by treatment with sodium deoxycholate. In order to purify the enzyme, gel filtration was carried out. This enzyme may be important in the pathogenesis of Parkinson's disease.
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PMID:Isolation of 1-methyl-1,2,3,4-tetrahydroisoquinoline-synthesizing enzyme from rat brain: a possible Parkinson's disease-preventing enzyme. 924 12

We examined the effects of cyclosporin A (CsA) and glucocorticoid (GC; hydrocortisone sodium succinate) in a mouse model of experimental parkisonism. GC or CsA was administered 30 or 60 min, respectively, prior to intracerebroventricular injection of 6-hydroxydopamine, followed by injection of a similar dose of each drug 3 h later. CsA reduced the extent of depletion of striatal concentrations of dopamine (DA) and dihydroxyphenylacetic acid (DOPAC) associated with dopaminergic neuronal degeneration. GC reduced the extent of homovanillic acid (HVA) depletion in the same region. A combination treatment with CsA and GC did not produce a further enhancement of the recovery of striatal concentrations of monoamines observed with CsA only. Our findings demonstrated the beneficial effects of initial CsA treatment in experimental models of parkinsonism and further support the usefulness of CsA in the treatment of Parkinson's disease.
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PMID:Initial cyclosporin A but not glucocorticoid treatment promotes recovery of striatal dopamine concentration in 6-hydroxydopamine lesioned mice. 927 93

Mitochondrial electron transport chain (ETC) function is selectively reduced in multiple tissues, including brain, from patients with Parkinson's disease (PD) and Alzheimer's disease (AD). The ETC defects are specific to each illness, involve complex I in PD and complex IV in AD, are transferable with mitochondrial DNA (mtDNA) and lead to increased production of reactive oxygen species (ROS) in mtDNA-deficient clonal neuronal cells hybridized with mtDNA ('cybrids') from PD or AD patients. C57BL/6 mice treated with MPTP developed elevated tissue hydroxyl radical ('OH) levels in striatum and ventral midbrain but not cerebellum. In brain microdialysis in awake rats, striatal 'OH output increased 3-5-fold after infusion of methylpyridinium ion (MPP+), a complex I inhibitor, or sodium azide, a complex IV inhibitor. Elevated 'OH after MPP+ was blocked stereospecifically by infusion of the nitric oxide synthase (NOS) inhibitor nitro-L-arginine or by the NMDA channel blocker MK801. Neither NOS inhibition nor NMDA blockade altered azide-induced 'OH production. ETC inhibition in vivo increases production of toxic 'OH, but the underlying mechanisms vary as a function of which ETC complex is inhibited. These results support the concept of developing oxygen free radical scavengers for both AD and PD and further suggest that inhibition of NOS and blockade of NMDA receptor function may alter progression of idiopathic PD.
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PMID:Mitochondrial toxins in models of neurodegenerative diseases. I: In vivo brain hydroxyl radical production during systemic MPTP treatment or following microdialysis infusion of methylpyridinium or azide ions. 931 90

The observation that baclofen stimulates growth hormone (GH) secretion in normal men, but not in parkinsonian patients led us to test the GH releasing effect of other gamma-amino-butyric acid (GABA)ergic agents with different mechanisms of action in Parkinson's disease. For this purpose 10 normal men and 10 de novo parkinsonian patients were tested with sodium valproate (800 mg PO), gamma-hydroxybutyric acid (GHB) (25 mg/kg body weight PO) and baclofen (10 mg PO). All drugs induced a significant increment in serum GH levels in the normal controls. On the other hand, GH secretion in parkinsonian patients did not change after baclofen or sodium valproate administration, whereas it showed normal responsiveness to GHB. These data suggest that the mechanism underlying the GH response to GHB is different from that (or those) mediating sodium valproate and/or baclofen action. In addition, the former, but not the latter mechanism appears to be preserved in the parkinsonian brain.
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PMID:Different control mechanisms of growth hormone (GH) secretion between gamma-amino- and gamma-hydroxy-butyric acid: neuroendocrine evidence in Parkinson's disease. 937 86

In vivo microdialysis in freely moving rats was used to study the biotransformation, consisting primarily of decarboxylation by aromatic amino acid decarboxylase (AAAD), of the precursors L-3,4-dihydroxyphenylalanine (L-DOPA), L-5-hydroxytryptophan (L-5HTP), and L-threo-3,4-dihydroxyphenylserine (L-threo-DOPS) on extracellular levels of dopamine (DA), serotonin (5HT) and noradrenaline (NA), respectively. The precursors were administered locally through the microdialysis probe into the striatum and into the hippocampus. The different transmitter systems were compared with respect to the ability of the precursors to elevate extracellular levels of their associated transmitter. The basal extracellular concentrations of NA and DA were found to be tetrodotoxin (TTX, a blocker of fast sodium channels) sensitive in striatum and hippocampus, indicating the neuronal origin of the measured transmitters. The extracellular concentrations of 5HT (in hippocampus) were only 60% TTX-sensitive. L-DOPA and L-5HTP showed to be effective precursors of DA and 5HT, respectively, although their formation profile was quite different. The L-DOPA-induced increase in extracellular DA was large and short-lasting, while the L-5HTP-induced increase in 5HT was slower and less pronounced. The relative increase in extracellular DA or 5HT was more pronounced in the brain region where their baseline values were lower, but the absolute amount of transmitter formed from their precursor was similar in both brain regions. L-threo-DOPS was a poor precursor for NA and also failed to influence extracellular DA in striatum, questioning its use in the treatment of freezing gait in late stages of Parkinson's disease.
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PMID:Biotransformation of locally applied precursors of dopamine, serotonin and noradrenaline in striatum and hippocampus: a microdialysis study. 950 67

It has been suggested that transition metals such as iron and manganese produce oxidative injury to the dopaminergic nigrostriatal system. which may play a critical role in the pathogenesis of Parkinson's disease. Intranigral infusion of ferrous citrate (0 to 8.4 nmol, i.n.) acutely increased lipid peroxidation in the substantia nigra and dopamine turnover in the caudate nucleus. Subsequently, it caused a severe depletion of dopamine levels in the rat caudate nucleus. In contrast to iron's pro-oxidant effect, manganese (up to 30 nmol, i.n.) causes neither lipid peroxidation nor nigral injury/dopamine depletion. Manganese (1.05 to 4.2 nmol, i.n.) dose-dependently protected nigral neurons from iron-induced oxidative injury and dopamine depletion. Manganese also suppressed acute increase in dopamine turnover and contralateral turning behaviour induced by iron. In brain homogenates manganese (0 to 10 microM) concentration-dependently inhibited propagation of lipid peroxidation caused by iron (0 to 5 microM). Without the contribution of manganese-superoxide dismutase manganese was still effective in sodium azide and/or heat-pretreated brain homogenates. Surprisingly, iron but not manganese, catalysed the Fenton reaction or the conversion of hydrogen peroxide to hydroxyl radicals. The results indicate that iron and manganese are two transition metals mediating opposite effects in the nigrostriatal system, as pro-oxidant and antioxidant, respectively. In conclusion, intranigral infusion of iron, but not manganese, provides an animal model for studying the pathophysiological role of oxidant and oxidative stress in nigrostriatal degeneration and Parkinsonism. The present results further suggest that the atypical antioxidative properties of manganese may protect substantia nigra compacta neurons from iron-induced oxidative stress.
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PMID:Manganese: a transition metal protects nigrostriatal neurons from oxidative stress in the iron-induced animal model of parkinsonism. 968 49

Recently, we cloned the human cation transporter hOCT2, a member of a new family of polyspecific transporters from kidney, and demonstrated electrogenic uptake of tetraethylammonium, choline, N1-methylnicotinamide, and 1-methyl-4-phenylpyridinium. Using polymerase chain reaction amplification, cDNA sequencing, in situ hybridization, and immunohistochemistry, we now show that hOCT2 message and protein are expressed in neurons of the cerebral cortex and in various subcortical nuclei. In Xenopus laevis oocytes expressing hOCT2, electrogenic transport of norepinephrine, histamine, dopamine, serotonin, and the antiparkinsonian drugs memantine and amantadine was demonstrated by tracer influx, tracer efflux, electrical measurements, or a combination. Apparent Km values of 1.9 +/- 0.6 mM (norepinephrine), 1.3 +/- 0.3 mM (histamine), 0.39 +/- 0.16 mM (dopamine), 80 +/- 20 microM (serotonin), 34 +/- 5 microM (memantine), and 27 +/- 3 microM (amantadine) were estimated. Measurement of trans-effects in depolarized oocytes and human embryonic kidney cells expressing hOCT2 suggests that there were different rates and specificities for cation influx and efflux. The hypothesis is raised that hOCT2 plays a physiological role in the central nervous system by regulating interstitial concentrations of monoamine neurotransmitters that have evaded high affinity uptake mechanisms. We show that amantadine does not interact with the expressed human Na+/Cl- dopamine cotransporter. However, concentrations of amantadine that are effective for the treatment of Parkinson's disease may increase the interstitial concentrations of dopamine and other aminergic neurotransmitters by competitive inhibition of hOCT2.
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PMID:Human neurons express the polyspecific cation transporter hOCT2, which translocates monoamine neurotransmitters, amantadine, and memantine. 968 76

The reactivity of catecholamines with nitrogen oxides formed from NO in aerated solutions, nitrite, and peroxynitrite was evaluated. Dopamine and norepinephrine in aerobic buffer (pH 7.4) were almost completely converted to their 6-nitro-derivatives by nitric oxide (NO) at room temperature, while epinephrine was nitrated and above all oxidized. The products obtained from each catecholamine treated with sodium nitrite at pH 4-7 were compared to those produced by NO at pH 7.4. Peroxynitrite, which can nitrate tyrosinyl residues, did not produce nitro-derivatives, only oxidized ones. The physiological relevance, particularly for the vascular and nervous system, is discussed. Catecholamine oxidation reactions could be relevant to physiological conditions and also explain neurotoxicity in Parkinson's disease and aging. Nitration reactions, requiring such high NO concentrations, do not seem possible to occur directly under normal physiological conditions, but could take place in acidic vesicules where nitrite, catecholamines, and their nitrated products could accumulate. Finally, the ability of dopamine to increase 2',5'-cyclic adenosine monophosphate (cAMP) formation in cultured striatal neurons was blocked by its nitration by NO or its nitrogen oxide derivatives.
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PMID:Oxidation and nitration of catecholamines by nitrogen oxides derived from nitric oxide. 1063 29

Tolcapone (T) is a novel catechol-O-methyltransferase (COMT) inhibitor recently introduced for the treatment of Parkinson's disease. In clinical efficacy studies, T has been associated with a low incidence of diarrhea. The objectives of the study were to examine whether T and its adjunctive drug Sinemet (S) could influence intestinal fluid and electrolyte transport as a possible cause for the diarrhea. The studies were conducted in conscious dogs surgically prepared with Thiry-Vella loops constructed from a 40-cm jejunal segment. A physiologically buffered test solution was perfused into the orad stoma and collected from the caudad stoma. Secretions were collected at 15-min intervals and analyzed for volume, electrolytes, lipid phosphorus, and protein. The acute oral administration of T (10 and 30 mg/kg doses) was well tolerated. Concurrent acute administration of S (25 mg/kg) with T (30 mg/kg) was also well tolerated. The acute oral administration of T induced a dose-dependent efflux of intestinal fluid and electrolytes (sodium, potassium, chloride, and bicarbonate) secretion (P < 0.05). The oral coadministration of S (25 mg/kg) with T (30 mg/kg) accelerated the onset of the stimulation of intestinal secretion. Despite the significant stimulation of intestinal secretion, none of the dogs developed diarrhea, indicating the importance of intestinal compensatory mechanisms. Neither T nor T&S affected calcium, lipid, or protein efflux rates, suggesting that the stimulated secretion was not a consequence of intestinal mucosal injury. The chronic (seven-day) administration of T and T&S was associated with reduced intestinal secretory responses when compared with the acute administration of the same drugs; S enhanced the T-induced tolerance development. The basis for such tolerance is unknown. In conclusion, the stimulatory systemic actions of tolcapone on intestinal secretion may, under certain conditions, contribute to the induction of diarrhea in susceptible patients.
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PMID:Effects of tolcapone, a catechol-O-methyltransferase inhibitor, and Sinemet on intestinal electrolyte and fluid transport in conscious dogs. 972 73


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