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)

Parkinson's disease (PD) is a common neurodegenerative disease of old age characterized by triad of akinesia, rigidity and tremor, reduction of dopamine (DA) content in the nigrostriatum, and severe degeneration of neuron in the substantia nigra. The significant changes after the use of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) to rhesus monkeys and C57 black mice are (a) serotonin-like reactions and Parkinsonian symptoms in monkeys and "stickclimbing" disturbance in mice; (b) marked DA reduction in substantia nigra (72.5%), putamen (93.3%), caudate nucleus (91.2%) of monkeys and striatum (94%) of mice; (c) reduction of Met-enkephalin (75%) and Leu-enkephalin (66%) in mouse striatum; and (d) severe degeneration of neurons in the substantia nigra of monkeys and mice. The results suggest that MPTP-treated monkey and C57 black mouse provides useful Parkinsonian animal models and produces behavioral, biochemical and histopathological changes similar to those of human PD.
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PMID:[Experimental research on 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine-induced parkinsonian animal models in the rhesus monkey and C57 black mouse]. 216 92

1. The application of in situ hybridization histochemistry to the study of neuropeptide gene expression in human brain postmortem tissues is reviewed. We focus on neuropeptides preferentially expressed in hypothalamus and basal ganglia. 32P-labeled oligonucleotides were used as hybridization probes. 2. Autoradiography combined with computerized image analysis was used to visualize and quantify the hybridization signal. 3. Several criteria were considered in order to ascertain the specificity of the signal, including Northern analysis, use of heterologous probes, competition assays, and thermal stability of the hybrids. 4. In control human striatum high levels of hybridization signal were observed for somatostatin, neuropeptide Y, and preproenkephalin A mRNAs. In contrast, no detectable signal was observed with the cholecystokinin, arginine-vasopressin, and oxytocin probes in this area. In the hypothalamus high levels of oxytocin and arginine-vasopressin mRNAs were visualized in several nuclei. Preproenkephalin A and somatostatin mRNAs were also observed in this region, while cholecystokinin mRNA was not detected. 5. No significant correlations were found between the density of the hybridization signal and parameters such as postmortem delay, age, and gender in the population studied. 6. Finally, alterations of mRNA levels for some of these peptides were found in Parkinson's disease and Huntington's chorea striatal tissues. 7. These results show that in situ hybridization histochemistry can be used to examine at the microscopic level neuropeptide gene expression in postmortem materials.
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PMID:The use of in situ hybridization histochemistry for the study of neuropeptide gene expression in the human brain. 233 44

No significant alterations in the levels of Met-enkephalin-, Leu-enkephalin-, cholecystokinin- and substance P-like immunoreactive materials were found in 10 areas of postmortem brains from patients with progressive supranuclear palsy (PSP) when compared to controls. These results are at difference with the marked decrease in the levels of enkephalin-, cholecystokinin- and substance P-like immunoreactive materials previously reported in the basal ganglia of parkinsonian patients. Since PSP and Parkinson's disease are both characterized by a severe dopamine nigrostriatal deficit, these results suggest that the decreased brain peptide concentrations found in Parkinson's disease do not simply result from a dopaminergic neuronal loss.
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PMID:Brain neuropeptides in progressive supranuclear palsy. 244 May 13

Striatal expression of preproenkephalin and preprotachykinin messenger RNA was studied in normal controls and in patients with Parkinson's disease using in situ hybridization histochemistry. In controls, preproenkephalin messenger RNA was expressed in a population of medium-sized neurons of mean cross-sectional area 165 microns 2, accounting for 66% of striatal medium-sized neurons, whereas preprotachykinin messenger RNA was expressed in a population of medium-sized neurons of mean cross-sectional area 204 microns 2 (23% larger than those expressing enkephalin, P < 0.05), accounting for 58% of medium-sized striatal neurons. Much lower levels of both preproenkephalin messenger RNA and preprotachykinin messenger RNA were expressed by large neurons in the globus pallidus and substantia nigra reticulata. In addition, preproenkephalin messenger RNA was expressed at low levels by neurons in the subthalamic nucleus. In Parkinson's disease cases, there was a statistically significant increase in preproenkephalin messenger RNA expression in the body of the caudate (109% increase, P < 0.05) and in the intermediolateral putamen (55% increase, P < 0.05) due to an increase in the level of gene expression per neuron rather than an increase in the number of neurons expressing preproenkephalin messenger RNA. Similar increases were observed in other putaminal subregions and in the putamen as a whole, but these did not reach statistical significance. No change in preprotachykinin messenger RNA expression was detected. These findings demonstrate selective up-regulation of a striatal neuropeptide system in Parkinson's disease compatible with increased activity of the "indirect" striatopallidal pathway, which is thought to play a crucial role in the pathophysiology of akinesia and rigidity in this condition.
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PMID:Preproenkephalin and preprotachykinin messenger RNA expression in normal human basal ganglia and in Parkinson's disease. 747 78

N-methyl-D-aspartate antagonists have been proposed as potential therapeutic agents in different neurological diseases, including Parkinson's disease. The effects of gene expression of a chronic treatment with the non-competitive N-methyl-D-aspartate antagonist, dizocilpine maleate (0.8 mg/kg day, per os for 50 days) were analysed in rat striata. Using quantitative in situ hybridization, we measured the messenger RNA expression of the genes encoding D1, D2 dopamine receptors, N-methyl-D-aspartate receptor 1 subunit of N-methyl-D-aspartate receptor, preproenkephalin A and substance P. Chronic treatment with dizocilpine maleate induced a moderate but significant increase in messenger RNA of the N-methyl-D-aspartate receptor 1 subunit in the striatum and the adjacent cortex, suggesting an action of dizocilpine maleate in these two regions. This treatment did not induce any change in D1 receptor, preproenkephalin A or substance P messenger RNA content in the striatum, whereas D2 receptor messenger RNA was increased in the striatum of treated rats. Microscopic analysis revealed that it was the number of medium-sized neurons expressing D2 receptor messenger RNA that was significantly enhanced, while the mean amount of message per cell remained unchanged. These results demonstrate that glutamate via N-methyl-D-aspartate receptors, regulates the D2 receptor gene in striatal neurons. A chronic treatment with dizocilpine maleate increases the number of striatal neurons expressing the D2 receptor gene, suggesting a recruiting phenomenon.
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PMID:Chronic treatment with dizocilpine maleate increases the number of striatal neurons expressing the D2 receptor gene. 753 97

The levels of the neuropeptides Met- and Leu-enkephalin (MET-ENK, LEU-ENK), substance P and neurotensin were measured by a combined high performance liquid chromatography/radioimmunoassay (HPLC/RIA) method in postmortem samples of basal ganglia from Parkinson's disease patients, incidental Lewy body disease patients (pre-symptomatic Parkinson's disease) and matched controls. Dopamine (DA) levels were reduced in the caudate nucleus and putamen in Parkinson's disease, but unaltered in incidental Lewy body disease. The levels of MET-ENK were reduced in the caudate nucleus, putamen and substantia nigra in Parkinson's disease. Met-enkephalin levels were reduced in the caudate nucleus and in the putamen in incidental Lewy body disease. Leu-enkephalin levels were decreased in the putamen and were undetectable in the substantia nigra in Parkinson's disease. Leu-enkephalin levels were unchanged in incidental Lewy body disease, although there was a tendency to a reduction in putamen. Substance P levels were reduced in the putamen in Parkinson's disease. No significant changes in substance P content were observed in incidental Lewy body disease. Neurotensin levels were increased in the substantia nigra in Parkinson's disease. Neurotensin levels in incidental Lewy body disease were not altered significantly, but tended to parallel the changes in Parkinson's disease. The changes in basal ganglia peptide levels in incidental Lewy body disease generally followed a trend similar to those seen in Parkinson's disease, but were less marked. This suggests that they are an integral part of the pathology of the illness and not secondary to DA neuronal loss or a consequence of prolonged drug therapy.
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PMID:Alterations in peptide levels in Parkinson's disease and incidental Lewy body disease. 867 94

Viral vectors have emerged as an important tool for manipulating gene expression in the adult mammalian brain. The adult brain is composed largely of nondividing cells, and therefore DNA viruses have become the vehicle of choice for neurobiologists interested in somatic gene transfer. Recombinant viral vectors based upon adenovirus or herpes simplex virus have been created in which a gene essential for viral replication is removed and a gene of interest is inserted in the viral genome. While this eliminates pathogenicity due to viral replication, retention of viral genes and continued expression of these genes may limit the potential of the current generation of vectors. Defective viral vectors represent a different approach, in which only viral recognition signals are used to allow packaging of foreign DNA into a viral coat while eliminating the possibility of viral gene expression within target cells. The defective HSV vector has been used to transfer genes into the adult rat brain. This vector has also been used for analysis of the preproenkephalin promoter in vivo, and important regions of this promoter have been identified using this technique. A modification of in situ PCR has been developed as an adjunctive tool for sensitively documenting the presence of vector DNA within target cells during in vivo promoter studies. Finally, the adenoassociated virus vector has been used as the first fully defective DNA viral vector, which also eliminates any contamination by helper viruses. This vector can transfer genes into the mammalian brain and has shown significant behavioral recovery in a rodent model of Parkinson's disease. Future work will undoubtedly result in still more diverse and improved vectors; however, these studies have documented the importance of viral vectors to both basic neurobiology and the potential treatment of neurologic disease.
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PMID:Viral Vectors for Gene Delivery and Expression in the CNS 895 46

Repeated dopamine receptor stimulation in the 6-hydroxydopamine (6-OHDA)-lesioned rat produces a marked enhancement in the behavioral response to a given dose of dopamine agonist. Such treatment also increases the synthesis of preproenkephalin-B (PPE-B) throughout the striatum and preproenkephalin-A (PPE-A) rostrally. To examine the relationship between these changes, 6-OHDA-lesioned rats were treated with apomorphine (5 mg/kg) twice-daily. Between 0.5 and 7 days treatment, behavior was monitored and the levels of PPE-A and PPE-B mRNA were determined by in situ hybridization. A single injection of apomorphine induced a well-known rotational response contraversive to the lesion (314 +/- 22 rotations h-1). However, with repeated injection, the response to apomorphine was markedly enhanced, being significantly higher on Days 3 (704 +/- 60 rotations h-1), 5 (1354 +/- 104 rotations h-1), and 7 (1680 +/- 117 rotations h-1). In the lesioned caudate-putamen, but not in the nucleus accumbens, PPE-B expression rose in a manner that was temporally correlated with the enhanced locomotor response to apomorphine. PPE-A expression in the lesioned striatum, significantly increased only after 7 days treatment, did not correlate with the behavioral response. In conclusion, PPE-B may contribute to the development of behavioral supersensitivity following repeated dopamine-replacement therapy in animal models of Parkinson's disease.
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PMID:Enhancement of the behavioral response to apomorphine administration following repeated treatment in the 6-hydroxydopamine-lesioned rat is temporally correlated with a rise in striatal preproenkephalin-B, but not preproenkephalin-A, gene expression. 916 43

Many studies have previously described changes in preproenkephalin-A (PPE-A) and preproenkephalin-B (PPE-B) gene expression in the striatum of the 6-hydroxydopamine (6-OHDA)-lesioned rat model of Parkinson's disease (both with or without dopamine replacement treatment). To date, these studies have either taken the striatum as a whole or have focused on a single subregion of the striatum. However, the striatum is organized into anatomically discrete parallel circuits serving different functions (motor, associative, and limbic). We have therefore employed in situ hybridization to examine the detailed topography of changes in opioid precursor expression following dopamine depletion and subsequent treatment with apomorphine (5 mg/kg twice daily for 10 days). In the untreated 6-OHDA-lesioned striatum PPE-A expression was elevated only in the dorsal (sensorimotor) caudate-putamen. Following apomorphine treatment PPE-A mRNA levels were further raised in the sensorimotor striatum (</=77%) and approximately doubled and tripled in the ventral caudate-putamen (associative) and nucleus accumbens (limbic), respectively. These subsequent elevations were mostly restricted to rostral portions of the striatum. Although unchanged following vehicle treatment, PPE-B gene expression in the lesioned caudate-putamen (sensorimotor and associative) was elevated some 30-fold by apomorphine treatment. A smaller rise (fivefold) was seen in rostral regions of the lesioned nucleus accumbens. Thus, differential regulation of opioid peptide transmission exists in motor, limbic, and associative regions of the striatum and may contribute to the generation of motor and cognitive disturbances following long-term treatment of the dopamine-depleted striatum.
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PMID:Topographical organization of opioid peptide precursor gene expression following repeated apomorphine treatment in the 6-hydroxydopamine-lesioned rat. 952 91

The cellular expression of adenosine A2A receptor mRNA in the adult monkey and human striatum was examined by using single and double in situ hybridization with ribonucleotide probes. Analysis on adjacent sections demonstrated a homogeneous overlapping expression of adenosine A2A receptor and preproenkephalin A mRNAs throughout nucleus caudatus, putamen, and nucleus accumbens. By contrast, high expression of preproenkephalin A mRNA but no expression of adenosine A2A receptor mRNA was found in the nucleus basalis of Meynert. Double in situ hybridization demonstrated an extensive colocalization of adenosine A2A receptor and preproenkephalin A mRNAs in approximately 50% of the medium-sized spiny neurons of the monkey nucleus caudatus, putamen, and nucleus accumbens. A small number of neurons (4-12%) that contained adenosine A2A receptor mRNA but not preproenkephalin A mRNA was found along the ventral borders of the striatum. Virtually all adenosine A2A receptor mRNA-containing neurons co-expressed dopamine D2 receptor mRNA, whereas only very few adenosine A2A receptor mRNA containing neurons co-expressed dopamine D1 receptor or substance P mRNAs. In addition, a sub-population of adenosine A2A receptor mRNA-expressing neurons that also contained preproenkephalin A mRNA was found in the septum in monkeys. These results demonstrate that there is a high expression of adenosine A2A receptor mRNA in the primate striatum that is extensively co-localized with dopamine D2 receptor and preproenkephalin A mRNAs. It is concluded that adenosine A2A receptors are likely to be important for the parallel organization of primate striatal neurotransmission and that these receptors could be a target for drug therapy in Parkinson's disease.
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PMID:Cellular distribution of adenosine A2A receptor mRNA in the primate striatum. 972 5


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