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)

Lisuride hydrogen maleate, a semisynthetic ergoline and potent central dopamine and serotonin agonist, was tested in 10 patients with moderate to marked Parkinson disease whose response to levodopa had diminished. In the group of 10 patients, there was a significant reduction (p less than or equal to 0.05) in bradykinesia, gait disorder, and total Parkinson disease disability score when levodopa was replaced with lisuride. The mean dose of lisuride was 3.6 mg per day. Among the 10 patients, 5 were better on lisuride than on levodopa, and 4 continue on lisuride 1 year later. A decline in efficacy was noted in all four after a mean of 45 months. Adverse effects necessitating discontinuing the drug were mental changes in three patients and nausea in one patient. Lisuride, when used alone, has definite antiparkinsonian activity and is a promising new drug.
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PMID:Lisuride in Parkinson disease: efficacy of lisuride compared to levodopa. 702 59

Lisuride, a semisynthetic ergoline and potent central dopamine and serotonin agonist, was combined with levodopa in 20 patients with advanced Parkinson disease who were no longer responding satisfactorily to levodopa, including 14 patients with "on-off' phenomena. Every patient who completed the 8-week trial improved significantly (p greater than or equal to 0.01), with a decrease in all symptoms. The mean dose of lisuride was 2.4 mg per day. The dose of levodopa (mg of levodopa in Sinemet) was reduced from 1030 to 920 mg. Among the patients with "on-off' phenomena, there was a significant increase in the time in which they were 'on' (mobile) from 4.6 to 9.6 hours. In 5 of 10 patients who have been on lisuride for at least 1 year, there has been no decline in efficacy.
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PMID:Lisuride combined with levodopa in advanced Parkinson disease. 703 4

Madopar, a combination of levodopa with benserazide, induced an inconsistent rise in plasma growth hormone in unmedicated patients with Parkinson's disease and in controls, and a greater growth hormone rise in Parkinsonian subjects on chronic Madopar therapy. In subjects on chronic therapy with levodopa and carbidopa (Sinemet), the growth hormone releasing effect of Madopar was blunted. Madopar increased plasma prolactin (PRL) in controls, unmedicated patients and patients on Madopar therapy while in patients on Sinemet therapy the PRL-releasing effect of Madopar was strikingly reduced. Since these data were interpreted as due to a defective dopamine tone in the hypothalamus of Parkinsonian subjects on Madopar but not Sinemet therapy, a direct dopamine receptor agonist, lisuride was administered. Lisuride, however, elicited a blunted growth hormone response both in patients on Madopar and Sinemet therapy, without revealing a state of supersensitivity of dopamine receptors for growth hormone control in Parkinsonian subjects on Madopar therapy. No difference was present in the PRL-lowering effect of lisuride in the different experimental groups. These findings suggest that: (1) hypothalamic dopamine function is impaired in Parkinsonian subjects on Madopar therapy, preserved in unmedicated patients and enhanced in patients on Sinemet therapy; (2) the endocrine effects observed in Parkinsonian subjects on chronic Madopar therapy may be due to some penetration of benserazide across the blood brain barrier in the region of the hypothalamus; (3) since Madopar and Sinemet are in essence equally effective antiparkinsonian remedies, penetration of benserazide does not occur across the blood brain barrier surrounding the nigrostriatal system.
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PMID:Growth hormone and prolactin stimulation by Madopar in Parkinson's disease. 733 6

The goal was to visualize cerebral dopamine-D2 receptors in 6 patients with Parkinson's disease and in 3 healthy controls using iodine-123-Lisuride-SPECT. In addition, we performed receptor-replacement studies using 123I-Lisuride and cold Lisuride as competitive ligands. The highest uptake of 123I-Lisuride was observed in the striatum, a region with known high dopamine receptor density. In two patients premedication with cold Lisuride displaced 123I-Lisuride from the dopamine receptor. 123I-Lisuride is valuable as a radiotracer in cerebral dopamine-D2 receptor scintigraphy. Whether or not it is possible to determine dynamic changes of dopamine receptor density or function by receptor replacement studies needs further evaluation in larger patient populations.
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PMID:[Brain SPECT with 123I-lisuride in patients with Parkinson's disease and controls]. 767 43

Dermal administration is a nonoral drug delivery system that can keep the concentration of a drug in the body at a proper level for a long time. This is suitable especially in patients in the advanced stages of Parkinson's disease with a wearing-off phenomenon (short duration of effects on antiparkinsonian drugs), or in postoperative patients who cannot be treated with oral administration. We studied the effects of lisuride, a dopamine receptor agonist, in the dermal application on MPTP-treated common marmosets and on 5 patients with Parkinson's disease. Lisuride was applied to 4 x 5 cm of skin of the abdomen of monkeys. In patients with Parkinson's disease, lisuride was applied to the skin of the chest. The agent reversed akinesia of MPTP-treated animals within 30 min following the application and relieved the animal of parkinsonism for 5 days at a dose of 2 mg/kg. In patients, the dermal application of lisuride increased the duration of the ON period at doses of 1 to 2 mg/kg. These results suggest that the dermal application of lisuride is a useful treatment in parkinsonism.
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PMID:[Dermal application of lisuride on parkinsonism induced by 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) in the common marmoset and on cases with Parkinson's disease]. 980 Jan 99

Dopamine agonists play an important role in the treatment of Parkinson's disease by reducing the administration of L-3,4-dihydroxyphenylalanine (L-DOPA). The enzymatic and non-enzymatic conversion of L-DOPA is suspected to increase oxidative stress, which leads to the degeneration of dopaminergic neurons in Parkinson's disease. In primary mouse mesencephalic cultures we show that the dopamine D1/D2 receptor agonist lisuride, in a concentration range of 0.001-1 microM, enhances the survival of dopaminergic neurons, protects against toxicity induced by L-DOPA or 1-methyl-4-phenylpyridinium ion (MPP+) and stimulates 3H-dopamine uptake. Lisuride also reduces anaerobic metabolism during incubation with L-DOPA. The present findings suggest that lisuride may have trophic/survival-promoting properties and potentially reduces oxidative stress.
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PMID:Protection of dopaminergic neurons in primary culture by lisuride. 1207 55

Parkinson's disease (PD) is a neurodegenerative disorder of central nervous system (CNS) that impaired the patient motor skills, speech and other functions. Adenosine A2A receptors have a unique cellular distribution in the neuron, which is used as a potential target for PD. Homology modeling was used to construct the 3-D structure of A2A using the known template (PDB: 2VT4), and the stereochemical quality was validated. Several effective antagonist drugs were selected and active amino acid residues in A2A were targeted on the basis of robust binding affinity between protein-drug interactions in molecular docking. Six antagonists, Bromocriptine, Cabergoline, Etilevodopa, Lysuride, Melevodopa and Pramipexole, were found more potent for binding and the active amino acids residues were identified (http://www.rcsb.org/pdb/) in A2A receptor. It could be used as the basis for rationale designing of novel antagonist drugs against Parkinson's disease.
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PMID:Homology modeling of adenosine A2A receptor and molecular docking for exploration of appropriate potent antagonists for treatment of Parkinson's disease. 2002 7

Traumatic brain injury is a heterogeneous disease, encompassing a wide range of pathologies. The dopamine agonist lisuride is well established in the therapy of Parkinson's disease. Additionally to its dopaminergic effects it decreases prolactine release, reducing the amount of inflammatory mediators such as TNF-alpha or Il-6. Lisuride has strong binding affinity to serotonergic and histaminergic receptors on neuronal and glial cells leading to scavenging of highly reactive free radicals. Due to its interaction with dopaminergic D2 and D4 receptors as well as 5-HT-1A receptors, NMDA-receptor signaling and glutamate-mediated excitotoxicity can be modulated beneficially. Despite of these promising neuroprotective effects, experimental data scrutinizing the effects of lisuride after acute brain injury are sparse. We therefore investigated the effect of lisuride after controlled cortical impact injury (CCII) in rats. 70 male Sprague-Dawley rats were randomized to lisuride or to placebo treatment by an initial s.c. loading dose (0.3mg/kg BW) and following continuous application (0.5mg/kg/d) by s.c. implanted osmotic pumps. In three experimental groups we determined (sub)acute neuro-physiological changes after trauma. Mean arterial blood pressure, intracranial pressure, and electrical brain activity were monitored acutely for up to 3h after trauma. Brain edema formation was assessed 24h after CCII. Furthermore, contusion volumes were quantified by magnetic resonance tomography and neurological testing was performed for up to 7 days after injury. Associated with the administration of lisuride there was a significant reduction in duration and number of post-traumatic seizures. Despite of a sustained arterial hypotension following the initial bolus administration in the treatment group, contusion volumes and neurological function tests did not differ significantly in comparison to the control group. Overall, lisuride seems to have significant anticonvulsive effects but seems not to influence secondary brain damage in this experimental model.
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PMID:Anticonvulsive effects of the dopamine agonist lisuride maleate after experimental traumatic brain injury. 2005 33

The pioneering work of Arvid Carlsson has laid the foundation for a number of innovative therapies for severe central nervous system (CNS) diseases. He was awarded the Nobel Price for the discovery of the crucial role of dopamine (DA) as a neurotransmitter in the CNS, thereby forming the basis for the symptomatic therapy of Parkinson's disease (PD) with L-DOPA and subsequently dopaminergic drugs. Parenteral apomorphine has a short lasting effect in PD, bromocriptine can be administered orally and has a long-lasting effects but is poorly tolerated. Lisuride on the other hand has a high affinity to DA receptors and can be administered orally, parenterally or via the transdermal route of administration. Last but not least Carlsson developed the concepts of presynaptic effects of DA agonists as well as DA partial agonism potentially innovative mechanisms for treatment of PD and schizophrenia.
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PMID:Classical dopamine agonists. 3080 32


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