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 dopaminergic neurons of the substantia nigra pars compacta and ventral tegmental area play a crucial role in regulating movement and cognition respectively. Several lines of evidence suggest that a degeneration of dopaminergic cells in the substantia nigra produces the symptoms of Parkinson's disease. On the other hand, a hyperactivity of the dopaminergic transmission in the brain induces dyskinesia, dystonia and psychosis. It is also well established that the euphoric and rewarding responses evoked by drugs of addiction, such as amphetamine and cocaine, are mediated by central dopamine systems. Electrophysiological experiments which study the activity of single dopaminergic neurons in the ventral mesencephalon have shown that dopamine and dopaminergic drugs reduce the firing frequency of these cells. This is due to the stimulation of D2-D3 autoreceptors and to a hyperpolarization of the membrane produced by an increase in potassium conductance. In addition, substances which increase the release (amphetamine), the synthesis (levodopa) or block the uptake (cocaine, nomifensine, amineptine) of dopamine in the brain inhibit the firing activity of the dopaminergic cells throughout dopamine-mediated mechanisms. In this review, we will briefly examine the literature concerning the physiological and behavioural responses caused by dopamine and dopaminergic agents on the dopaminergic neurons of the ventral mesencephalon. Our conclusion suggests that the electrophysiological actions of dopamine and dopamine-related drugs on dopaminergic cells in the ventral mesencephalon might be indicative of the pharmacological effects of these agents on the brain.
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PMID:The electrophysiological actions of dopamine and dopaminergic drugs on neurons of the substantia nigra pars compacta and ventral tegmental area. 135 54

The relative importance of synaptic versus paracrine dopamine transmission for the occurrence of functional effects following intrastriatal grafting is not fully established. In the present study we grafted cell lines, expressing the form I of human tyrosine hydroxylase after infection with a recombinant retrovirus and selection in tyrosine-free-medium, to the denervated striatum in order to analyse the extent to which extracellular dopamine levels can be restored and the effect of a diffuse release of dopamine on motor impairement in a rat model of Parkinson's disease. In petri dish, the modified fibroblast cells (NIH.3T3) release DOPA constitutively whereas the modified endocrine cells (RIN) store and release dopamine in a regulated way. Interestingly, in denervated striatum, grafts of modified fibroblast cells produce DOPA which was efficiently converted into dopamine by the host striatal tissue. In the grafted striatum, both fibroblast and endocrine cells restore subnormal levels of diffuse release of dopamine which is notably unaffected and stimulated, respectively, by high concentration of potassium, in connection with the in vitro properties of the grafted cells. The intrastriatal grafts of modified cells partially reversed the apomorphine-induced but not the amphetamine-induced motor asymmetry. We discuss the implications of these results in the context of Parkinson disease.
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PMID:Behavioural effects of genetically engineered cells releasing dopa and dopamine after intracerebral grafting in a rat model of Parkinson's disease. 168 23

Surrounding bovine chromaffin cells by a semipermeable membrane may protect the transplanted cells from a host immune response and shield them from the inflammatory process resulting from the surgical trauma. Encapsulation of the chromaffin cells was achieved by interfacial adsorption of a polycation on a polyanionic colloid matrix in which the chromaffin cells were entrapped. Basal and potassium-evoked release of catecholamines from encapsulated bovine chromaffin cells was analyzed over a 4-week period in vitro. Norepinephrine and dopamine release remained constant over time whereas epinephrine release significantly decreased. The chromaffin cells also retained the capacity for depolarization-elicited catecholamine release 4 weeks following the encapsulation procedure. Morphological analysis revealed the presence of intact chromaffin cells with well-preserved secretory granules. Striatal implantation of chromaffin cell-loaded capsules significantly reduced apomorphine-induced rotation compared to empty polymer capsules in animals lesioned with 6-hydroxydopamine for at least 4 weeks. Intact chromaffin cells expressing tyrosine hydroxylase and dopamine-beta-hydroxylase were observed in all capsules implanted in the striatum for 4 weeks. The assessment of the clinical potential of transplanting encapsulated adrenal chromaffin cells of either allo- or xenogeneic origin for Parkinson's disease will require long-term behavioral studies. The present study suggests, however, that the polymer encapsulation procedure may offer an alternative to adrenal autografts as a source of dopaminergic tissue.
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PMID:Transplantation of microencapsulated bovine chromaffin cells reduces lesion-induced rotational asymmetry in rats. 176 Jul 45

The levels of different elements were studied by x-ray microanalysis in the substantia nigra and the central gray substance of patients with Parkinson's disease, progressive supranuclear palsy, and matched controls. In control brains, only iron, potassium, silicum, sodium, sulfur, and zinc were within the limit of detection of the technique. The abundance of each element was different, but their respective concentrations in the two brain regions were similar, except for sulfur levels which were higher on neuromelanin aggregates in the substantia nigra than in nigral regions lacking neuromelanin, and in the central gray substance. In Parkinson's disease, but not in progressive supranuclear palsy, nigral iron levels increased in regions devoid of neuromelanin and decreased on neuromelanin aggregates, but were unchanged in the central gray substance, when compared to control values. Concentrations of the other elements in the central gray substance and substantia nigra were not different from controls in brains from patients with Parkinson's disease and progressive supranuclear palsy. Analysis of Lewy bodies in the parkinsonian substantia nigra revealed high levels of iron and the presence of aluminum. Metal abundance was not affected in progressive supranuclear palsy, in spite of the nigral cell death. This suggests that the increased iron levels and the detection of aluminum observed in Parkinson's disease are not solely the consequence of the neuronal degeneration.
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PMID:Iron and aluminum increase in the substantia nigra of patients with Parkinson's disease: an X-ray microanalysis. 198 48

Neurons of the neostriatum are richly innervated by cholinergic neurons of intrinsic origin. Both pre- and post-synaptic muscarinic receptors mediate the effects of acetylcholine (ACh). Activation of these receptors is functionally significant, particularly in Parkinson's disease. Current-clamp studies indicate that muscarinic receptors serve to decrease the responsiveness of neostriatal neurons to excitatory inputs. Here we present evidence that this effect is caused, in part, by the muscarinic modulation of the A-current, a transient outward potassium current. The voltage dependence of this current suggests that normally it enhances spike repolarization and slows discharge rate, but does not affect 'synaptic integration'. We find that under the influence of muscarinic agonists, the voltage dependence of A-current activation and inactivation is shifted towards more negative membrane potentials and the peak conductance is increased. Therefore, at relatively hyperpolarized resting potentials, ACh transiently alters the functional role of the A-current, allowing it to suppress excitatory inputs and further slow the discharge rate. But at relatively depolarized resting potentials, ACh increases excitability by removing the A-current through inactivation.
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PMID:Muscarinic modulation of a transient K+ conductance in rat neostriatal neurons. 231 59

The total activity of superoxide dismutase (SOD) and cytosolic and particulate activity of SOD in human substantia nigra and cerebellum were measured by a spectrophotometric method based on the ability of SOD to inhibit the autoxidation of adrenaline. The cytosolic and particulate isoenzymes of SOD were differentiated by the inclusion of potassium cyanide which selectively inhibits cytosolic copper/zinc-dependent SOD activity. In autopsied human brains, there was no difference in total SOD activity, or the activity of SOD in cytosol in substantia nigra of patients dying with Parkinson's disease compared to age-matched controls. However, the activity of the particulate form of SOD was higher in the parkinsonian substantia nigra compared to control tissue. In the cerebellum there was no difference in the total, cytosolic, or particulate activity of SOD between parkinsonian patients and age-matched controls. Increased activity of SOD in particulate fraction may be a protective response to elevated levels of toxic free radicals in the parkinsonian substantia nigra. Alternatively, increased SOD activity may induce cell death through the accumulation of hydrogen peroxide.
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PMID:A selective increase in particulate superoxide dismutase activity in parkinsonian substantia nigra. 276 Jun 16

MPTP (1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine) produces symptoms similar to idiopathic Parkinson's disease in primates. A metabolite of MPTP, MPP+ (1-methyl-4-phenylpyridinium), is actively accumulated by dopaminergic (DA) terminals and selectively destroys nigrostriatal DA neurons. The mechanism of this effect remains unknown but reports that MPP+ inhibits electron transport in isolated mitochondria and increases oxidation of cytochrome b in striatal slices suggest that depression of ATP production is involved. To relate metabolic effects of MPP+ with tissue electrophysiology, extracellular potassium ion activity [K+]o was measured by microelectrodes simultaneous to optical monitoring of reduction/oxidation (redox) activity of cytochrome b during superfusion of MPP+ onto rat striatal and hippocampal slices. MPP+ increased oxidation of cytochrome b and increased [K+]o in slices of striatum. These increases were greater than expected from a selective effect of MPP+ on DA terminals which likely comprise no more than 3% of the total striatal mass. These effects of MPP+ were slowed by a dopamine uptake inhibitor (mazindol) and did not occur in hippocampal slices. These findings indicate that MPP+ influences ion transport as well as metabolic activity and that these actions require the presence of functioning DA terminals. However, the large amplitudes of the MPP+-induced changes suggest that consequences of MPP+-neurotoxicity are not ultimately confined to DA terminals. Two hypothesis are proposed: that energy failure in DA terminals results in leakage of neurotoxic substances or metabolites altering membrane conductance properties of adjacent cells and thereby placing additional demand upon ion transport pumps and mitochondrial oxidative phosphorylation; or that there is secondary uptake of MPP+ leading to mitochondrial inhibition in cells neighboring DA terminals.
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PMID:MPP+-induced increases in extracellular potassium ion activity in rat striatal slices suggest that consequences of MPP+ neurotoxicity are spread beyond dopaminergic terminals. 326 70

To our knowledge, this is the first case report of a multiple, low dosage ingestion of manganese. A 66-year-old male patient is presented, who ingested 125 ml of a 8% solution of potassium permanganate (10 g) within 4 weeks. As early as 2 weeks after the beginning of poisoning, psychological alterations were noted. Neurological examination revealed disturbances of many subsystems of the CNS. Visually evoked potentials showed prolongation of the P2-latency, not reported in earlier publications. Levels for manganese were elevated in peripheral blood as well as in hair samples. Treatment with calcium trisodium pentetate decreased serum levels and increased urine excretion of manganese. Nine months after poisoning, the first signs of progressive Parkinson disease became evident. The time-course of neurological symptoms seems to depend on a critical dose of manganese.
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PMID:Chronic enteral poisoning caused by potassium permanganate: a case report. 372 48

To estimate the frequency of diuretic-related electrolyte disorders in the elderly, 561 consecutive admissions to three acute geriatric units were studied. For the 287 admissions to one unit, discharge/death diagnoses were also examined in relation to admission diuretic therapy. Sodium concentrations were significantly lower, and urea and creatinine significantly higher, in patients on diuretics, though the size of the differences was small. Comparing different preparations sodium concentrations were significantly lower on Moduretic than on Dyazide or Navidrex K and on frusemide when combined with a potassium-retaining diuretic rather than a potassium supplement. Potassium concentrations were significantly lower on Bendrofluazide alone compared to Navidrex K or Moduretic. Diuretics were positively associated with cardiac failure, ischaemic heart disease, airflow obstruction and obstructive large bowel disorders but negatively with Parkinson's disease. No significant association was found with falls, immobility or confusion. Major electrolyte disorders on diuretics appear to be unusual but important differences exist between preparations. Similarly major illness resulting from diuretic therapy is rare but minor morbidity may be more common.
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PMID:Biochemical and clinical correlates of diuretic therapy in the elderly. 379 65

The calcium-channel ligand, nimodipine (Bay e 9736), in submicromolar concentrations (10(-7) to 10(-5) M), enhanced the potassium (25 mM) or electrical stimulation (1 Hz, 1 ms, 180 pulses) evoked release or [3H]dopamine from rat striatal slices, while it inhibited the release of [3H]acetylcholine. Nimodipine had similar effects on slices from the cerebral cortex loaded with [3H]dopamine or [3H]acetylcholine, the electrical stimulation evoked release of the catecholamine was enhanced, while release of [3H]acetylcholine was suppressed. The data indicate that nimodipine may distinguish between Ca2+ channels in dopaminergic and cholinergic nerve-terminals. The simultaneous elevation of dopamine release and suppression of acetylcholine release may prove useful in the treatment of Parkinson's disease.
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PMID:Dopamine release is enhanced while acetylcholine release is inhibited by nimodipine (Bay e 9736). 395 99


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