UMLS:C0030567 - FACTA Search

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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 effect of a unilateral 6-hydroxydopamine (6-OHDA) lesion of the medial forebrain bundle or of a sham lesion on the neuropeptide content of the striatum and substantia nigra was investigated with or without 6 months L-3,4-dihydroxyphenylalanine (L-DOPA; 200 mg/kg per day) plus carbidopa (25 mg/kg per day) treatment. [Met5]- and [Leu5]enkephalin, substance P (SP), neurotensin (NT) and cholecystokinin (CCK) were measured by a combined HPLC/RIA method. Neurotensin levels were increased in the striatum, and [Leu5]enkephalin, and SP levels were reduced in the substantia nigra as a consequence of the lesion, while the levels of other peptides were unaltered. Administration of L-DOPA to sham-operated rats bilaterally increased SP levels in striatum and substantia nigra, and [Met5]enkephalin and CCK content in substantia nigra. L-DOPA treatment of 6-OHDA-lesioned rats increased [Met5]- and [Leu5]enkephalin and CCK levels in the striatum ipsilateral to the lesion but not on the intact side. In the substantia nigra, the lesion-induced decrease in [Leu5]enkephalin and SP was reversed by L-DOPA treatment, [Met5]enkephalin and CCK levels ipsilateral to the lesion were further enhanced, and there was an increase in NT ipsilateral to the lesion. Cryptic [Met5]- and [Leu5]enkephalin increased in the ipsilateral striatum following an 6-OHDA lesion. L-DOPA treatment did not alter cryptic enkephalin levels or the lesion-induced increase in cryptic [Met5]enkephalin, while cryptic [Leu5]enkephalin was further increased in lesioned animals given L-DOPA. These results suggest that the pattern of change in basal ganglia peptides in Parkinson's disease is not due solely to the destruction of the nigrostriatal pathway, the drug treatment of the disease or a combination of these factors.
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PMID:Effects of a unilateral 6-hydroxydopamine lesion and prolonged L-3,4-dihydroxyphenylalanine treatment on peptidergic systems in rat basal ganglia. 138 71

The technique of receptor autoradiography was used to study the distribution of neurotensin receptors in post mortem brain tissues from patients affected by Parkinson's disease, progressive supranuclear palsy and from age-matched controls. [125I]Neurotensin was used as ligand. Significant receptor decreases were found in the substantia nigra, both pars compacta and reticulata, and in the putamen in Parkinson's disease and progressive supranuclear palsy. In addition, significant decreases of neurotensin receptors were found in the ventral tegmental area, nucleus accumbens and dorsal part of caudate head in patients with Parkinson's disease but not in patients with progressive supranuclear palsy, indicating differential involvement of neurotensin receptors in these two neurological disorders. In addition, both in Parkinson's disease and progressive supranuclear palsy the decrement of striatal neurotensin binding sites was less than expected from the reported decrease of dopamine content in this nucleus, suggesting only partial localization of neurotensin receptors on mesostriatal dopaminergic projections.
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PMID:Neurotensin receptors in Parkinson's disease and progressive supranuclear palsy: an autoradiographic study in basal ganglia. 196 15

Neurotensin receptor autoradiography reveals dense binding in normal human substantia nigra. In nigra from patients with Parkinson's disease, nigral receptor binding is only about one-third of control values. 'Saturation' analysis suggests that these changes result from receptor loss. These results support a neurotensin-dopamine interaction in human nigro-striatal circuits.
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PMID:Parkinson's disease: depletion of substantia nigra neurotensin receptors. 608 53

We have recently cloned the neurotensin receptor from human substantia nigra. Using in situ hybridization techniques, with an 35S-labeled antisense RNA probe complementary to this receptor complementary DNA, we studied the expression of the human neurotensin receptor in the brain from control and Parkinson's disease subjects. We also performed an analogous study with rat brain. Neurotensin receptor messenger RNA was present in high levels in melanized neurons of the substantia nigra pars compacta and the nucleus paranigralis (the ventral tegmental area for rat brain). Background levels of signals for neurotensin receptor messenger RNA were detected in the nucleus ruber, the colliculus inferior and the striatal subdivisions (the nucleus caudatus, the putamen and the nucleus accumbens) of both human and rat brain. All these areas, except the nucleus ruber and the collicus inferior, contain very high to high levels of neurotensin receptor binding sites. Additionally, Parkinson's disease brains had markedly fewer melanized (possibly dopaminergic) neurons, as expected, and correspondingly very low or background levels of messenger RNA for neurotensin receptor. We have also demonstrated heterogeneity among the melanized cells expressing messenger RNA encoding the neurotensin receptor in the substantia nigra and the nucleus paranigralis of human brain. The neurons in the nucleus paranigralis had lower melanin pigmentation and higher expression of neurotensin receptor messenger RNA. In general, the expression of the messenger RNA within the highly and evenly melanized neurons was lower than that found in low or unevenly pigmented neurons. The neurons in the nucleus paranigralis had lower melanin pigmentation and higher expression of neurotensin receptor messenger RNA. The low pigmented neurons in the ventral tier of the substantia nigra had relatively high expression. On the other hand, highly and evenly melanized neurons in these regions of the brain had low expression of neurotensin receptor messenger RNA. Together with the previous binding data, it is suggested that not only in rat brain, but also in human brain, melanized (possibly dopaminergic) neurons in the substantia nigra and the nucleus paranigralis (ventral tegmental area of rat brain) synthesize neurotensin receptors and express them in their perikarya and the terminal regions. Additionally, the heterogeneity of the melanized neurons in human brain may play a role in the normal function of dopaminergic systems and probably in the etiology of some neurological and psychiatric disorders.
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PMID:Heterogeneity of melanized neurons expressing neurotensin receptor messenger RNA in the substantia nigra and the nucleus paranigralis of control and Parkinson's disease brain. 770 May 29

The effect of neurotensin (NT) on the release of acetylcholine (ACh) and dopamine (DA) from striatal slices of the rat brain was studied. Neurotensin, 1-150 nM, was able to release ACh from cholinergic interneurons of the striatum. Like the response to electrical stimulation, the ACh-releasing effect of NT was completely inhibited by tetrodotoxin indicating that neuronal firing is involved in its effect. Immunneutralization reduced the stimulation-evoked release of ACh, an effect that was much marked when the inhibitory dopaminergic input was suspended by sulpiride-selective antagonists of D2 receptors. Sulpiride, 0.1 mM, induced a 2-fold increase in the NT- and electrically-induced release of ACh. A quantitatively similar increase was also observed after degeneration of the nigrostriatal DA pathway with 6-hydroxydopamine (6-OHDA) (2 x 250 micrograms/animal, i.c.v.). However, the D2 receptor agonist quinpirole, 0.01 mM, significantly reduced the NT-induced release of ACh by 77%. Neurotensin enhanced the stimulation-evoked release of [3H]DA. These findings indicate that, using field stimulation when dopaminergic, cholinergic and NT-containing neurons are stimulated in concert, NT is capable of releasing both ACh and DA in the striatum, but its effect on ACh release is masked unless the D2 receptor-mediated tonic inhibitory effect of DA released from the nigro-striatal pathway is attenuated. Thus, in Parkinson's disease where the dopaminergic input is impaired, NT may be involved in producing cholinergic dominance.
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PMID:Effect of neurotensin and immunneutralization with anti-neurotensin-serum on dopaminergic-cholinergic interaction in the striatum. 810 Nov 33

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

Neurotensin is a 13-amino acid hormonal peptide which was first isolated from bovine hypothalamus. It is present in the digestive tract as well as in the central nervous system. It has a variety of biological activities as a central neurotransmitter or neuromodulator, and a peripheral hormone. NT receptors have been characterized in a variety of tissues and cell lines of peripheral and central organs. The physiological functions of NT include stimulation of pancreatic and biliary secretion, stimulation of colonic motility, inhibition of small bowel and gastric motility, trophic effect on numerous tissues of the gastrointestinal tract. NT exerts hypothermic and analgesic effect when injected into the central nervous system. From a clinical standpoint, studies with NT have led to implications of its involvement in schizophrenia, Parkinson's disease and Alzheimer's disease.
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PMID:[Neurotensin--structure, origin and biological function]. 933 84

We examined the sequential changes in neurotensin receptors in the striatum and substantia nigra of mouse brains lesioned with 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) by receptor autoradiography, in comparison with the alterations in dopamine uptake sites. The mice received four intraperitoneal injections of MPTP (10 mg/kg) at 1-h intervals and then the brains were analyzed at 6 h and 1, 3, 7, and 21 days after the treatments. [3H]Neurotensin and [3H]mazindol were used to label neurotensin receptors and dopamine uptake sites, respectively. [3H]Neurotensin binding was significantly decreased in the striatum from 6 h to 21 days after MPTP treatment. In the substantia nigra, pars reticulata also showed a significant decrease in [3H]neurotensin binding from 3 to 21 days post-MPTP treatment. However, no significant change in [3H]neurotensin binding was observed in the pars compacta even after 21 days. On the other hand, [3H]mazindol binding was markedly decreased in the striatum and substantia nigra from 6 h to 21 days after MPTP treatment. These results indicate that neurotoxin MPTP can produce a severe decrease in neurotensin receptors and dopamine uptake sites in the striatum and substantia nigra of mice. Thus, our findings provide evidence that the dysfunction in neurotensin receptors may be involved in the degenerative processes causing Parkinson's disease.
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PMID:Alteration of neurotensin receptors in MPTP-treated mice. 1047 79

The tridecapeptide neurotensin has been demonstrated to increase glutamate release in discrete rat brain regions, leading to the hypothesis of a possible involvement of the peptide in neurodegenerative pathologies. The role of neurotensin in modulating glutamate excitotoxicity and the possible neuroprotective action of the neurotensin receptor antagonist SR48692 were investigated in primary cultures of mesencephalic neurons by measuring [(3)H]dopamine uptake and tyrosine hydroxylase immunocytochemistry 24 hr after glutamate treatment. The exposure to glutamate (30 and 100 microM, 10 min) decreased [(3)H]dopamine uptake into mesencephalic neurons. Neurotensin (10 and 100 nM), added before glutamate (30 microM) exposure, significantly enhanced the glutamate-induced reduction of [(3)H]dopamine uptake. In addition, the peptide (10 nM) also significantly enhanced the effect of 100 microM glutamate. The effects of neurotensin were counteracted by the neurotensin receptor antagonist SR48692 (100 nM) and by the protein kinase C inhibitor calphostin C. The exposure to 100 microM, but not 30 microM, glutamate significantly reduced the number of tyrosine hydroxylase-immunoreactive cells, and neurotensin (10 nM) significantly enhanced this effect. SR48692 (100 nM) prevented the neurotensin-induced action. These findings support the view of a possible pathophysiological role of neurotensin in mesencephalic dopamine neuronal function. Furthermore, selective neurotensin antagonists in combination with conventional drug treatments could provide a novel therapeutic approach for the treatment of neurodegenerative disorders, such as Parkinson's disease.
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PMID:Neurotensin enhances glutamate excitotoxicity in mesencephalic neurons in primary culture. 1244 98

Neurotensin (NT) is a neuropeptide found in the central nervous system and gastrointestinal tract. It is closely associated with dopaminergic and other neurotransmitter systems, and evidence supports a role for NT in various neuropsychiatric disorders. Because NT is readily degraded by peptidases, our group has developed various NT agonists that can be injected systemically, cross the blood brain barrier (BBB), yet retain the characteristics of native NT. The most widely studied and successful of these compounds, called NT69L, holds promise as a therapeutic agent for Parkinson's disease, schizophrenia, psychostimulant abuse and nicotine dependence, and serves as a tool to study the cellular and molecular effects of NT.
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PMID:Current topics: brain penetrating neurotensin analog. 1451 64

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