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Query: UMLS:C0030567 (
Parkinson's disease
)
63,064
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Dopamine-denervated rat striata exhibit increased synaptosomal gamma-aminobutyric acid (GABA) synthetic capacity (
glutamate decarboxylase
activity) without an alteration in GABA transport capacity. Stimulating denervated striatal dopamine receptors with apomorphine selectively increases in vivo steady-state striatal GABA turnover. The striatal response in animals to isolated loss of dopamine innervation is an increase in
glutamate decarboxylase
activity, not the decrease frequently found in the brains of patients with
Parkinson's disease
. Neurochemical expression of denervated striatal dopamine receptor stimulation may involve increased synaptic activity of striatal GABA neurons. For these reasons, enhancement of basal ganglia GABA function may improve responsiveness to dopamimetic therapies in patients with
Parkinson's disease
.
...
PMID:Striatal dopamine depletion, dopamine receptor stimulation, and GABA metabolism: implications for the therapy of Parkinson's disease. 308 62
Glutamate decarboxylase
(
GAD
) activity was estimated in various areas of the brain in 21 control and 26 parkinsonian subjects matched for age, postmortem delay and premortem state. Retrospective analysis of clinical data was used to define a premortem severity index (PMSI), scaled from 0 to 6, based upon a semiquantitative estimation of the duration of anoxia (0-3) and hypovolaemia (0-3). A significant correlation was found between
GAD
activity and PMSI in most regions of the brain. In the prefrontal cortex and caudate nucleus,
GAD
activity was not correlated with age, postmortem delay, sepsis, being bedridden, or with cachexia. Dosage and duration of drug treatment did not influence striatal or cortical
GAD
levels. In
Parkinson's disease
,
GAD
activity did not differ from controls in many brain areas except in the caudate nucleus, hippocampus and the frontal and occipital cortex. No difference in striatal and cortical
GAD
activity was observed when 10 control and 9 parkinsonian brains were selected for an optimal premortem state which approximated to sudden death (PMSI less than or equal to 2).
GAD
activity in the caudate nucleus and prefrontal cortex was not significantly influenced by the duration of L-DOPA treatment or withdrawal, disease duration, or severity of intellectual deterioration. Although the number of samples in certain brain areas was too small to allow a definitive conclusion, these results make it doubtful that GABAergic neurons are damaged in this disease.
...
PMID:Brain glutamate decarboxylase in Parkinson's disease with particular reference to a premortem severity index. 400 26
After a classical neuropathological study assessing the diagnosis, the activity of the GABA synthetizing enzyme,
glutamate decarboxylase
(
GAD
), was assayed in 6 brain areas, in 8 cases of
Parkinson's disease
, 2 cases of idiopathic orthostatic hypotension and 9 control cases carefully matched. The activity of
GAD
is not impaired, as classically believed, in parkinsonian brains, particularly in substantia nigra and pallidum. This preservation would indicate the absence of lesion of GABAergic neurones in
Parkinson's disease
. In the cases of other Parkinsonian syndromes, the number of cases studied is too limited to allow any generality; but they are, however reported because of their rarity.
...
PMID:[Topographic and chemical study of the GABA synthetizing enzyme in Parkinsonian syndromes]. 666 89
Expression of
glutamate decarboxylase
-67 messenger RNA was examined in the basal ganglia of normal controls and of cases of
Parkinson's disease
using in situ hybridization histochemistry in human post mortem material. In controls
glutamate decarboxylase
-67 messenger RNA expression was detected in all large neurons in both segments of the globus pallidus and in three neuronal subpopulations in the striatum as well as in substantia nigra reticulata neurons and in a small sub-population of subthalamic neurons. In
Parkinson's disease
, there was a statistically significant decrease of 50.7% in
glutamate decarboxylase
-67 messenger RNA expression per neuron in the lateral segment of the globus pallidus (controls: mean 72.8 microns2 +/- S.E.M. 8.7 of silver grain/neuron, n = 12;
Parkinson's disease
: mean 35.9 microns2 +/- S.E.M. 9.7 of silver grain/neuron, n = 9, P = 0.01, Student's t-test). In the medial segment of the globus pallidus, there was a small, but non-significant decrease of
glutamate decarboxylase
-67 messenger RNA expression in
Parkinson's disease
(controls: mean 100.6 microns2 +/- S.E.M. 7.2 of silver grain/neuron, n = 11;
Parkinson's disease
: mean 84.8 microns2 +/- S.E.M. 13.0 of silver grain/neuron, n = 7, P = 0.1, Student's t-test). No significant differences in
glutamate decarboxylase
-67 messenger RNA were detected in striatal neuronal sub-populations between
Parkinson's disease
cases and controls. These results are the first direct evidence in humans that there is increased inhibitory drive to the lateral segment of the globus pallidus in
Parkinson's disease
, as suggested by data from animal models. We therefore provide theoretical support for current experimental neurosurgical approaches to
Parkinson's disease
.
...
PMID:Glutamate decarboxylase-67 messenger RNA expression in normal human basal ganglia and in Parkinson's disease. 893 Oct 5
The reticular thalamic nucleus consists of densely packed neurons containing the neurotransmitter GABA. It surrounds the lateral border of the thalamus, has extensive reciprocal connections with thalamocortical neurons, and is thought to be involved in attentional processes. The reticular thalamic nucleus also receives direct and indirect inputs from the basal ganglia, suggesting that it may be involved in relaying motor information to the thalamus and cortex. We examined the possibility that decreased dopaminergic transmission in the basal ganglia indirectly affects the reticular thalamic nucleus. Rats received unilateral 6-hydroxydopamine lesions of the substantia nigra pars compacta and were killed two or three weeks after the lesion. Sections of the reticular thalamic nucleus were processed for in situ hybridization histochemistry at the single cell level with RNA probes for both isoforms of
glutamate decarboxylase
(M(r) 65,000:
glutamate decarboxylase
65 and M(r) 67,000:
glutamate decarboxylase
67), the rate limiting enzyme of GABA synthesis. Unilateral nigrostriatal dopaminergic lesions induced a topographically specific, bilateral increase in
glutamate decarboxylase
67 messenger RNA in neurons of the lateral and ventral reticular thalamic nucleus. A much smaller increase in
glutamate decarboxylase
65 messenger RNA was observed which was significant only ipsilateral to the lesion. Short- (seven day) and long-term (eight month) treatments with the antipsychotic drug haloperidol, in regimens that preferentially block D2 dopamine receptors, induced catalepsy and orofacial dyskinesia, respectively, but did not alter
glutamate decarboxylase
67 messenger RNA levels in the reticular thalamic nucleus. Thus, loss of dopaminergic terminals, but not blockade of D2 dopamine receptors, induced the effects observed in the reticular thalamic nucleus. The results reveal a novel bilateral effect of unilateral dopamine depletion. In view of the role of the reticular thalamic nucleus in tremor and attentional processes, which are altered in
Parkinson's disease
, this effect may contribute to the clinical manifestations of nigrostriatal dopamine depletion.
...
PMID:Unilateral nigrostriatal lesions induce a bilateral increase in glutamate decarboxylase messenger RNA in the reticular thalamic nucleus. 905 94
Many neurological disorders result directly or indirectly from the loss of inhibitory function. Engineering the production of GABA, an inhibitory neurotransmitter, may therefore be able at least partly to restore the lost inhibition seen in epilepsy,
Parkinson's disease
, or Huntington's disease. In this article, we describe a set of recombinant adeno-associated viruses (AAVs) that can deliver cDNAs encoding the GABA-producing enzyme,
glutamate decarboxylase
(
GAD
), directly into neural cells. We have characterized these recombinant AAVs in several cell lines derived from the CNS. These recombinant AAVs effectively transduced all neural cell lines, although with different efficiencies. Transduction occurred in both proliferating and nonproliferating cells, but actively proliferating cell lines had approximately six times greater transduction efficiency than nonproliferating cells. Furthermore, these AAVs maintained long-term expression of
GAD
in an astrocytic cell line for at least seven passages. These recombinant AAVs are promising vehicles for investigating the potential therapeutic effects of GABA in animal models of epilepsy and neurodegenerative diseases.
...
PMID:Recombinant adeno-associated virus (AAV) drives constitutive production of glutamate decarboxylase in neural cell lines. 1039 44
Recent pathophysiological models of basal ganglia function in
Parkinson's disease
predict that specific neurochemical changes in the indirect pathway would follow the lack of stimulation of D(2) dopamine receptors. Post mortem studies of the basal ganglia in genetically modified mice lacking functional copies of the D(2) dopamine receptor gene allowed us to test these predictions. When compared with their congenic N(5) wild-type siblings, mice lacking D(2) receptors show an increased expression of enkephalin messenger RNA in the striatum, and an increased activity and expression of cytochrome oxidase I in the subthalamic nucleus, as expected. In addition, D(2) receptor-deficient mice display a reduced expression of
glutamate decarboxylase
-67 messenger RNA in the globus pallidus, as the basal ganglia model predicts. This reduction contrasts with the lack of change or increase in
glutamate decarboxylase
-67 messenger RNA expression found in animals depleted of dopamine after lesions of the mesostriatal dopaminergic system. Furthermore, D(2) receptor-deficient mice show a significant decrease in substance P messenger RNA expression in the striatonigral neurons which form the direct pathway. Finally,
glutamate decarboxylase
-67 messenger RNA expression in the basal ganglia output nuclei was not affected by mutations in the D(2) receptor gene, a fact that could probably be related to the absence of a parkinsonian locomotor phenotype in D(2) receptor-deficient mice. In summary, these findings provide compelling evidence demonstrating that the lack of endogenous stimulation of D(2) receptors is sufficient to produce subthalamic nucleus hyperactivity, as assessed by cytochrome oxidase I histochemistry and messenger RNA expression, and strongly suggest the existence of interactions between the basal ganglia direct and indirect pathways.
...
PMID:The indirect basal ganglia pathway in dopamine D(2) receptor-deficient mice. 1097 27
Implantation of cells genetically modified to express therapeutic genes into the brain has been proposed as a potential treatment for neurodegenerative diseases. In the current study embryonic rat-derived astrocytes were cultured and transduced with a lentiviral vector expressing the reporter gene green fluorescent protein (GFP) and subsequently grafted into the adult rat brain. The proportion of GFP expressing cells was stable, albeit small (1%), at all survival times, up to 6 weeks, the longest time point studied. In parallel in vitro studies, the astrocytes were lentivirally transduced to express either one of the two isoforms of
glutamate decarboxylase
(GAD(65) or GAD(67)) or glial cell line-derived neurotrophic factor (GDNF). When transducing 293T cells with the two GAD vectors, released GABA could be measured using high-performance liquid chromatography. Further studies of rat astrocytes transduced with the same vectors resulted in a level of GAD activity about 10 times higher than the activity of an intact rat striatum. One hundred thousand astrocytes transduced with LV-GDNF released approximately 27 ng of GDNF per hour. Thus, taken together, our observations provide support for the use of rat astrocytes in ex vivo gene transfer of these proteins in animal models of CNS disorders, e.g.,
Parkinson's disease
or epilepsy.
...
PMID:Ex vivo and in vitro studies of transgene expression in rat astrocytes transduced with lentiviral vectors. 1177 36
Adenosine A2A receptor antagonists have been proposed as an effective therapy in the treatment of
Parkinson's disease
. In the present study, we compared the modifications on striatal
glutamate decarboxylase
(GAD67), enkephalin, and dynorphin mRNA levels produced by a chronic-intermittent administration of L-3,4-dihydroxyphenyl-alanine (L-dopa) (6 mg/kg) with those produced by the adenosine A2A receptor antagonist SCH 58261 (5 mg/kg) plus L-dopa (3 mg/kg) in unilaterally 6-hydroxydopamine (6-OHDA)-lesioned rats. As previously reported, L-dopa (6 mg/kg) and SCH 58261 (5 mg/kg) plus L-dopa (3 mg/kg) produced the same degree of turning behavior after the first administration. However, while L-dopa (6 mg/kg) induced a sensitized turning behavior response during the course of the treatment, which indicated a dyskinetic potential, SCH 58261 (5 mg/kg) plus L-dopa (3 mg/kg) produced a stable turning behavior response, which was predictive of absence of dyskinetic side effects. Unilateral 6-OHDA lesion produced an elevation in striatal GAD67 and enkephalin mRNA levels and to a decrease in dynorphin mRNA levels. Chronic-intermittent L-dopa (6 mg/kg) treatment increased the striatal levels of GAD67, dynorphin, and enkephalin mRNA in the lesioned side as compared to the vehicle treatment. Chronic-intermittent SCH 58261 (5 mg/kg) plus L-dopa (3 mg/kg) as well as L-dopa (3 mg/kg) or SCH 58261 (5 mg/kg) alone did not produce any significant modification in GAD67, dynorphin, or enkephalin mRNA levels in the lesioned striatum as compared to the striatum of vehicle-treated rats. The results show that combined SCH 58261 plus L-dopa did not produce long-term changes in markers of striatal efferent neurons activity and suggest that the lack of modifications in GAD67 and dynorphin mRNA after SCH 58261 plus L-dopa might correlate with the lack of turning behavior sensitization which predicts drug dyskinetic potential.
...
PMID:Differential regulation of GAD67, enkephalin and dynorphin mRNAs by chronic-intermittent L-dopa and A2A receptor blockade plus L-dopa in dopamine-denervated rats. 1195 48
High-frequency stimulation (HFS) of the subthalamic nucleus (STN) is now recognized as an effective treatment for advanced
Parkinson's disease
, but the molecular basis of its effects remains unknown. This study examined the effects of unilateral STN HFS (2 hr of continuous stimulation) in intact and hemiparkinsonian awake rats on STN neuron metabolic activity and on neurotransmitter-related gene expression in the basal ganglia, by means of in situ hybridization histochemistry and immunocytochemistry. In both intact and hemiparkinsonian rats, this stimulation was found to induce c-fos protein expression but to decrease cytochrome oxidase subunit I mRNA levels in STN neurons. STN HFS did not affect the dopamine lesion-mediated overexpression of enkephalin mRNA or the decrease in substance P in the ipsilateral striatum. The lesion-induced increases in intraneuronal
glutamate decarboxylase
67 kDa isoform (GAD67) mRNA levels on the lesion side were reversed by STN HFS in the substantia nigra, partially antagonized in the entopeduncular nucleus but unaffected in the globus pallidus. The stimulation did not affect neuropeptide or GAD67 mRNA levels in the side contralateral to the dopamine lesion or in intact animals. These data furnish the first evidence that STN HFS decreases the metabolic activity of STN neurons and antagonizes dopamine lesion-mediated cellular defects in the basal ganglia output structures. They provide molecular substrate to the therapeutic effects of this stimulation consistent with the current hypothesis that HFS blocks STN neuron activity. However, the differential impact of STN HFS on the effects of dopamine lesion among structures receiving direct STN inputs suggests that this stimulation may not cause simply interruption of STN outflow.
...
PMID:High-frequency stimulation of the subthalamic nucleus selectively reverses dopamine denervation-induced cellular defects in the output structures of the basal ganglia in the rat. 1207 9
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