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: EC:1.14.16.2 (tyrosine hydroxylase)
14,760 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The synaptic organization of dopaminergic interplexiform cells (DA-IPC) in the goldfish retina was studied by a combined double-label electron-microscopical (EM) immunocytochemical/autoradiographical study. DA-IPCs were labeled with antisera against tyrosine hydroxylase. The possibility of synaptic contact with GABAergic amacrine cells in the proximal inner plexiform layer (IPL) was studied by using 3H-GABA uptake. Most synaptic input and output from DA-IPC processes involved amacrine cell processes. In addition, synaptic interactions were observed between DA-IPC processes and bipolar cell terminals, other DA-IPC processes, very small dendrites in the IPL, ganglion cell and optic fiber layers (OFL), and cell bodies in the ganglion cell layer (GCL). Input and output synapses with GABAergic amacrine processes also were observed. Two-thirds of the DA-IPC boutons in the proximal IPL were involved in "junctional appositions," that is, the junctions appeared to be specialized but they were different than classical chemical synapses. The synaptic organization of DA-IPCs in the goldfish IPL appears to be far more complex than previously thought. Although earlier studies have attempted to explain the action of dopamine in terms of interaction only with amacrine cells, the present study shows that effects involving bipolar cells, other DA-IPCs, unidentified processes and cell bodies in the GCL and OFL must be considered as well.
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PMID:Synaptic organization of dopaminergic interplexiform cells in the goldfish retina. 290 24

Recent morphologic and functional techniques for the study of nerve cells, such as intracellular injection and neurotransmitter immunohistochemistry, allow a new approach to the functional architecture of the retinal circuitry. Two types of dopaminergic cells are described: amacrine cells and interplexiform cells. These latter cells, which send processes to both the inner and outer plexiform layers, form a feedback loop acting at the level of horizontal cell coupling. Two molecules localized in such cells, dopamine and GABA, have antagonistic effects on horizontal cell coupling and regulate the diameter of their receptive fields which code for contrast. Changes in the ERG, VEPs and contrast sensitivity occur in Parkinsonian patients and are identical to those observed in animal models whose dopaminergic retinal system has been destroyed, thus suggesting a degenerative process of this system in Parkinson's disease. The observation of dopamine neurons, labelled by their tyrosine hydroxylase immunoreactivity, in the retina of 5 patients, led to the observation of reduced dopamine innervation in the central retina of Parkinsonian patients.
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PMID:Functional neuroarchitecture of the retina: hypothesis on the dysfunction of retinal dopaminergic circuitry in Parkinson's disease. 313 18

The GABAergic properties of dissociated neurons from cerebral cortex of neonatal rats were studied in primary culture using electrophysiological, biochemical and immunohistochemical methods. Cultured neurons had a resting potential of -50 to -60 mV and exhibited spontaneous excitatory and inhibitory synaptic currents. Non-spontaneous (elicited) ionic currents were produced by direct application of GABA and glutamate. Cultures contained measurable amounts of GABA from the first day in culture; GABA content reached a plateau around the 10th day of culture, and continued, nearly unchanged, until the 21st day of culture. Immunohistochemistry showed that 45% of the total cells in culture contained glutamic acid decarboxylase (GAD). Octadecaneuropeptide (ODN), a putative neuroregulatory peptide for benzodiazepine recognition sites, was present in approximately 28% of all neurons. Ninety-three percent of ODN-positive cells demonstrated GABAergic properties as well by displaying GAD-immunoreactivity. The peptide GABA-modulin (GM), a putative GABA receptor modulator, was found in about 75% of all neurons, with a further 65% of these cells exhibiting GAD-immunoreactivity. Cells immunopositive for neuropeptide Y (NPY), somatostatin (SRIF), and cholecystokinin-octapeptide (CCK), were found at much lower incidence (1-4%). Double-labelling studies showed that 90-97% of the cells positive for NPY, SRIF and CCK were also positive for GAD. Cells immunoreactive with serotonin or tyrosine hydroxylase were not detected. We suggest that primary cultures of neonatal cortical neurons may provide a useful experimental model to investigate the function and the modulation of GABAergic neurotransmission in the cerebral cortex.
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PMID:Subsets of GABAergic neurons in dissociated cell cultures of neonatal rat cerebral cortex show co-localization with specific modulator peptides. 337 69

Submaximal destruction of nigrostriatal dopaminergic projections resulted in a significant (25%) decrease in specific GABA binding in substantia nigra; under these conditions, striatal tyrosine hydroxylase activity was 15-44% of control. In rats with lesions which caused maximal destruction of nigrostriatal dopamine neurons (striatal tyrosine hydroxylase was less than 15% of control), specific GABA binding in substantia nigra was apparently not different from that obtained in intact controls. Two distinct processes may be occurring in response to the destruction of dopamine neurons: (1) the loss of GABA binding sites physically associated with nigral dopamine neurons; and (2) an increase in nigral GABA receptors associated with non-dopaminergic neurons. The latter process may result from a decrease in nigral GABA transmission secondary to the complete loss of dopaminergic synaptic activity in striatum.
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PMID:Relationship between the presence of dopaminergic neurons and GABA receptors in substantia nigra: effects of lesions. 611 44

Behavioural and biochemical studies were carried out in rats given a single daily dose (1 mg/kg, i.p.) of haloperidol for 30 days and subsequently withdrawn for 7 days. Long-term administration of haloperidol resulted in supersensitivity of dopamine receptors. This was manifested by enhanced stereotypic biting, rearing, locomotor and floor activity of haloperidol withdrawn rats when challenged to a low dose of apomorphine (0.5 mg/kg, s.c.) on the 8th day. Chronic haloperidol treatment significantly decreased dopamine synthesis and release as evidenced by low activity of tyrosine hydroxylase and low level of homovanillic acid in striatum. Dopamine levels did not change in the frontal cortex, striatum and midbrain. Haloperidol treatment significantly increased striatal gamma-aminobutyric acid content and glutamic acid decarboxylase activity by 17% and 16% respectively. The decreased tyrosine hydroxylase activity and homovanillic acid level in corpus striatum might, in part, be due to an inhibitory effect of GABAergic neurons on dopaminergic system. Rats withdrawn from chronic haloperidol treatment showed significant increases in GABA level and glutamic acid decarboxylase activity. This probably resulted in further inhibition of dopamine release as evidenced by marked accumulation of dopamine in the corpus striatum and midbrain. No significant alterations in the endogenous levels of norepinephrine, 5-hydroxytryptamine and 5-hydroxyindoleacetic acid were observed in haloperidol-treated and subsequently withdrawn rats. These data suggest that chronic haloperidol treatment and subsequent withdrawal results in the development of behavioural dopamine supersensitivity as well as biochemical alterations in dopaminergic and GABAergic system. The changes in these two neuronal systems seem to be interrelated.
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PMID:Behavioural and biochemical alterations following haloperidol treatment and withdrawal: the animal model of tardive dyskinesia reexamined. 613 27

Immunohistochemical double staining for gonadotropin releasing hormone (GnRH) and tyrosine hydroxylase (TH) or glutamic acid decarboxylase (GAD) reveals in the septo-preoptic-diagonal band complex of the rat brain close spatial associations between GnRH-immunoreactive perikarya and TH and GAD immunoreactive fibers. In the organum vasculosum laminae terminalis, no close spatial relationships could be observed between TH- or GAD-positive fibers and the GnRH-containing system. In contrast, in the median eminence substantial overlap exists in the distribution of GnRH with TH and GAD containing nerve fibers. This overlap is most intense for TH throughout the lateral palisade zone, while for GAD it is more restricted to the outermost portion of the external palisade zone. The results suggest that dopamine and GABA influence GnRH secretion via axosomatic contacts in the septo-preoptic-diagonal band complex, as well as via axo-axonic interactions in the median eminence, while no such interactions seem to exist in the organum vasculosum laminae terminalis. Since dopaminergic cell bodies in the ventral hypothalamus are closely apposed by GnRH and GAD containing fibers, the existence of feedback circuits among GnRH, dopamine and GABA systems is proposed.
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PMID:Anatomical relationships of dopaminergic and GABAergic systems with the GnRH-systems in the septo-hypothalamic area. Immunohistochemical studies. 613 90

Five enzymes involved in glutamic acid, GABA, and catecholamine metabolism were measured in epileptic human brain. Electrocorticographically defined areas of focal spiking were compared with samples from surrounding nonspiking cortex. Comparative enzyme activities were as follows (mumol/h/g wet wt): glutamic acid dehydrogenase (GDH)--spiking 135.77 +/- 10.22 (mean +/- SEM), nonspiking 118.58 +/- 9.42 (p less than 0.001, N = 17); glutamic acid decarboxylase--spiking 10.63 +/- 0.95, nonspiking 9.96 +/- 1.10 (NS, N = 13); GABA-aminotransferase--spiking 36.49 +/- 1.05, nonspiking 36.46 +/- 1.48 (NS, N = 12); glutamine synthetase--spiking 96.94 +/- 3.81, nonspiking 96.52 +/- 4.10 (NS, N = 20); and tyrosine hydroxylase (TH; nmol/h/g)--spiking 16.23 +/- 2.39, nonspiking 10.67 +/- 1.95 (p less than 0.001, N = 14). Increased activity of GDH and TH may prove useful to characterize further areas of active spiking in human focal epilepsy.
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PMID:Enzyme changes in actively spiking areas of human epileptic cerebral cortex. 614 16

Immunocytochemical localization of GABA neurons and dopamine neurons in the rat olfactory bulb was obtained with sheep antiserum to glutamate decarboxylase (GAD) and rabbit antiserum to tyrosine hydroxylase (TH). GAD-positive neurons include periglomerular cells, granule cells, superficial and deep short axon cells. TH-positive neurons represent periglomerular cells. Two-color immunocytochemistry shows that GABA and dopamine periglomerular cells are separate populations. The accessory olfactory bulb has rare dopamine cells and few superficial short axon cells. Radial gradients of GAD-immunostaining are evident in the main but not in the accessory olfactory bulb.
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PMID:Immunocytochemical localization of GABA neurons and dopamine neurons in the rat main and accessory olfactory bulbs. 614 97

Adult male and female rats treated neonatally with monosodium glutamate (MSG) exhibit lesions in the arcuate nucleus of the hypothalamus. Immunohistochemical analysis of the distribution of tyrosine hydroxylase (TH), glutamic acid decarboxylase (GAD), neurotensin (NT) and gonadotropin-releasing hormone (GnRH) reveals substantial destructions of tuberoinfundibular dopamine and NT systems accompanied by a marked reduction of immunoreactivity in the median eminence. GAD immunoreactivity in the arcuate nucleus and median eminence is greatly reduced, while GnRH containing structures in the mediobasal hypothalamus are not noticeably affected. Evaluation of autoradiograms after intravenously administered [3H] estradiol in the ventral hypothalamus indicate an almost complete loss of target neurons in the arcuate nucleus but not in the nearby ventromedial nucleus. The results suggest that: (a) NT- and dopamine-containing neurons of the arcuate nucleus project to the median eminence via tuberoinfundibular NT and dopaminergic pathways; (b) GABA in the median eminence originates to a major extent from neurons of the arcuate nucleus through a tuberoinfundibular GABAergic system; (c) GnRH is produced in the rat outside the arcuate nucleus; (d) the MSG-induced lesion in the basal tuberal region abolishes or strongly diminishes estradiol target neurons in the arcuate nucleus.
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PMID:Monosodium glutamate lesions in rat hypothalamus studied by immunohistochemistry for gonadotropin releasing hormone, neurotensin, tyrosine hydroxylase, and glutamic acid decarboxylase and by autoradiography for [3H] estradiol. 614 23

Plasma concentrations of gonadotropin, prolactin and hypothalamic tyrosine hydroxylase (TH) activity were measured in ovariectomized rats treated with aminooxyacetic acid (AOAA), a drug which elevates brain GABA levels. Hypothalamic TH activity was significantly increased with a significant decrease in prolactin (Prl) release. Plasma levels of gonadotropins were not modified by AOAA. These results support an inhibitory action of GABA on Prl release possibly mediated through hypothalamic dopamine.
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PMID:Hypothalamic tyrosine hydroxylase activity, plasma gonadotropin and prolactin levels after aminooxyacetic acid in ovariectomized rats. 615 Aug 66


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