EC:1.14.16.2 - FACTA Search

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)

Membrane depolarization is an important and common manipulation used to study the result of enhanced neuronal activity on adaptive changes, including alterations in gene expression. In this study, the effect of elevated KCl, under isotonic and hypertonic conditions, on the changes in mRNA levels of the catecholamine biosynthetic enzymes, tyrosine hydroxylase (TH) and dopamine beta-hydroxylase (DBH) was compared. Treatment of PC12 pheochromocytoma cells for several hours with 50 mM KCl, under conditions where osmolarity was maintained, induced TH mRNA levels several fold, without changing DBH mRNA levels (Kilbourne and Sabban, 1990). In contrast, 50 mM KCl added to culture media without adjusting the osmolarity did not alter TH mRNA levels for up to 24 h. Longer continuous exposure to this hypertonic depolarization condition reduced TH mRNA levels to about 10% of control levels. DBH mRNA levels also declined when PC12 cells were treated from 12 h to 5 days with hypertonic 50 mM KCl. The effect appeared to be specific, since actin mRNA levels were elevated about 2-fold with these same hypertonic treatments. As a control for osmotic changes, 50 mM NaCl was used and did not alter TH or DBH mRNA levels. Viability of the cells was maintained and total protein synthesis was reduced somewhat after 12 h of exposure to hypertonic 50 mM KCl, and remained relatively constant for as long as 4 days. Thus, there appears to be an interaction between osmolarity and elevated KCl since very different results of the effects of membrane depolarization on the mRNA levels for the catecholamine biosynthetic enzymes were obtained depending on the osmolarity of the cultures. The extent of elevation of TH mRNA with isotonic KCl was also dependent on cell density. At high cell densities, membrane depolarization no longer induced TH mRNA levels. The results of this study indicate the experimental parameters which can be crucial in studies of membrane depolarization.
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PMID:Membrane depolarization by isotonic or hypertonic KCl: differential effects on mRNA levels of tyrosine hydroxylase and dopamine beta-hydroxylase mRNA in PC12 cells. 168 23

In situ hybridization and Northern blot analysis has been used to analyse in some detail the localization and regulation of the messenger molecules adrenaline, noradrenaline and neuropeptide tyrosine (NPY) within cells of the sympathetic nervous system and the adrenal medulla. In the rat adrenal gland, a novel NPY containing population of ganglion cells was found. Synthetic oligonucleotide probes complementary to mRNA coding for the catecholamine synthesizing enzymes phenylethanolamine N-methyltransferase (PNMT), tyrosine hydroxylase (TH) and NPY were used to analyse the regulation of these genes following administration of the catecholamine depleting drug reserpine. Twenty-four hours after a single dose of reserpine, a differential regulation of PNMT, TH and NPY was found. Thus, a dramatic decrease in PNMT mRNA was observed in the adrenal medulla. In contrast, mRNA for both TH and NPY exhibited an increase. Different regulatory mechanisms may thus operate for these three compounds coexisting in chromaffin cells of the adrenal medulla. The regulation of enzymes and peptides was also studied in human sympathetic ganglia. After brief electrical preganglionic stimulation of thoracic ganglia in humans, in situ hybridization was performed with synthetic oligonucleotide probes complementary to TH, dopamine beta-hydroxylase (DBH) and NPY mRNA respectively. A several fold increase in all three mRNAs was found in the principal ganglion cells. The results point to a very rapid regulation of genes involved in signal transmission in the sympathetic nervous system of humans. The results also suggest a novel way to define neuronal projections by visualizing increases in mRNA levels following electrical stimulation.
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PMID:Colocalization of neurotransmitters analyzed by in situ hybridization. 168 76

Both epinephrine (E) and norepinephrine (NE) cells in the rat adrenal medulla are able to proliferate in response to pharmacologic stimulation. However, previous biochemical studies have suggested that drug-induced or spontaneous pheochromocytomas in rats are almost invariably NE-producing. To resolve these apparently conflicting data, immunocytochemical techniques were utilized to establish functional profiles of adrenal medullary lesions classified as pheochromocytoma or nodular hyperplasia in rats treated chronically with a phosphodiesterase inhibitor which induced pheochromocytomas. Sixteen of 17 pheochromocytomas and all hyperplastic nodules stained positively for tyrosine hydroxylase and dopamine beta-hydroxylase, consistent with an ability to produce NE. No lesion of either type stained for phenylethanolamine N-methyltransferase, consistent with an inability to produce epinephrine. Lesions of both types showed variable staining for chromogranin proteins. The findings indicate that qualitative functional differences cannot be used to discriminate hyperplastic nodules from small pheochromocytomas in rats. Some lesions currently classified as hyperplastic nodules might in fact be small pheochromocytomas. Others might represent diffuse hyperplasia within pre-existing islands of NE-cells in a background of hyperplastic epinephrine-cells.
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PMID:Catecholamine-synthesizing enzymes and chromogranin proteins in drug-induced proliferative lesions of the rat adrenal medulla. 169 97

Immunohistochemical properties of the terminal nerve network in the rat heart were assessed by use of the elution-restaining method. The colocalization of the enzymes involved in catecholamine synthesis (tyrosine hydroxylase--TH. dopamine-beta-hydroxylase--DBH) as well as the respective distributions of the neuropeptides associated with the adrenergic nervous system (neuropeptide tyrosine--NPY, C-terminal flanking peptide of neuropeptide Y--C-PON) were studied in series of serial sections throughout the interatrial septum and the atrioventricular junction. Our data suggest that ganglion cells of sulcus terminalis as well as the epicardial ganglia enclosed between the superior vena cava and ascending aorta are VIP- and TH-negative, but neuropeptide Y- and DBH-immunoreactive. They give rise to three intraseptal nerves directed towards the specialised structures of the atrioventricular junction. These nerve fascicles contain abundant, thick TH-immunoreactive nerve fibres and scarce, thin NPY- and DBH-immunoreactive fibres. The cell bodies of the intramural ganglion cells localized between the right and left branches of the bundle of His (Moravec and Moravec 1984) are strongly TH- and DBH-immunoreactive. They are innervated by thick nerve fibres having the same immunohistochemical properties (NPY- and DBH-immunoreactivities) as those of a subpopulation of the epicardial ganglion cells and seem to supply some of the TH-immunoreactive nerve fibres directed via the intraseptal nerves to the epicardial ganglia. The existence of a multicomponent nerve network, characterized by a reciprocal innervation of the sinus node and atrioventricular node areas, is suggested by our immunohistochemical data.
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PMID:Catecholaminergic and peptidergic nerve components of intramural ganglia in the rat heart. An immunohistochemical study. 170 21

Catecholamines are thought to play an important role in sensory transduction in the arterial chemoreceptors of the mammalian carotid body, and classical cytochemical techniques have demonstrated their presence in the type I (glomus) cells of this organ. However, it remains controversial whether dopamine (DA) and norepinephrine (NE) occur in the same or in different subtypes of glomus cells. In the present study, we have addressed this issue using immunocytochemistry to compare the localization of tyrosine hydroxylase (TH) and dopamine beta-hydroxylase (D beta H) in the cat carotid body. Both pre- and post-embedding double-labelling immunohistochemical techniques were employed. TH and D beta H were found to co-exist in over 90% of the glomus cells, and they were co-localized at equivalent levels in almost 80% of the cells; less than 5% contained only TH. The results suggest that DA and NE are synthesized and stored in a common cell population in the cat carotid body.
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PMID:Co-existence of tyrosine hydroxylase and dopamine beta-hydroxylase immunoreactivity in glomus cells of the cat carotid body. 170 59

Neuroblastomas are malignant childhood neoplasms that arise from derivatives of the neural crest. We report the characterization of a new neuroblastoma cell line, designated NBL-W, derived from the primary tumor of a patient with stage IVS disease (S. L. Cohn, C. V. Herst, H. S. Maurer, and S. T. Rosen, J. Clin. Oncol., 5: 1441-1444, 1987) according to the criteria of Evans [A. E. Evans, G. J. D'Angio, and J. Randolf, Cancer (Phila.), 27: 374-378, 1971]. Neurite-bearing (N) and substrate-adherent (S) cell lines have been subcloned from the parent line. N and S cells can interconvert, and both cell types label with the neural crest cell surface marker antibody, HNK-1. Cells in the subcloned lines and in the parent line have been shown by Southern blot analysis to contain approximately 100 copies of the N-myc gene. Cytogenetic analysis shows a homogeneously staining region present on chromosome 19. Although these subclones are of identical genotype, the S cells express lower amounts of N-myc mRNA and protein as compared to the N cells. N cells express several neuronal proteins including the neurotransmitter-processing enzymes tyrosine hydroxylase and dopamine beta-hydroxylase, the neuronal intermediate filament proteins peripherin and NF66/alpha-internexin, and the neural cell adhesion molecule. S cells generally lack neuronal markers but express the mesenchymal intermediate filament protein vimentin, and a small subset of the S cells express glial fibrillary acidic protein. Some S cells were labeled weakly with neural cell adhesion molecule antibody; others were negative. S cells did not express the glial marker S-100 or a melanocyte marker, tyrosinase. Thus, S cells express the neural crest marker HNK-1 but do not express a set of antigens characteristic of any known cell type derived from the neural crest. These results are consistent with the suggestion that differential N-myc expression may be involved in the interconversion of N and S cells but indicate that the S cell phenotype need not represent a highly differentiated neural crest derivative.
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PMID:Differential expression of N-myc in phenotypically distinct subclones of a human neuroblastoma cell line. 193 96

The application of high-performance liquid chromatography to the study of biogenic amine-related enzymes is reviewed. Biogenic amines include catecholamines (dopamine, norepinephrine and epinephrine), indoleamines (serotonin and melatonin), imidazoleamines (histamine), polyamines (putrescine, spermidine and spermine) and acetylcholine. Three particular aspects are covered. The first aspect is the assay of enzyme activities of biogenic amine-related enzymes, such as tyrosine hydroxylase, tryptophan hydroxylase, aromatic L-amino acid decarboxylase, dopamine beta-hydroxylase and phenylethanolamine N-methyltransferase. The introduction of highly sensitive assays of biogenic amines with electrochemical detection or fluorescence detection have made possible the non-isotopic assay of these activities, replacing the previously used radioisotopic methods. The second aspect is the purification of these enzymes. Since biogenic amine-synthesizing enzymes are generally unstable, rapid and efficient purification of these enzymes is very useful. The third aspect is the assay of biogenic amines (for example, acetylcholine and polyamines) using post-column derivatization with biogenic amine oxidases and electrochemical detection.
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PMID:Application of high-performance liquid chromatography to the study of biogenic amine-related enzymes. 193 43

Intact secretory granules isolated from bovine adrenal medulla express tyrosine hydroxylase (TH) activity. Granule-associated TH sediments on continuous sucrose gradients with dopamine beta-hydroxylase, a marker for granule membranes, indicating that TH is associated with chromaffin granules. Membranes prepared from lysed granules retain TH, whereas granule contents are free of the enzyme. TH immunoreactivity was detected in granule membranes by immunoblot analysis using a polyclonal antiserum against TH. TH immunoreactivity cannot be removed from membranes by washes in high ionic strength buffers and is only partially removed from membranes by treatment with either urea or Na2CO3. TH can be removed from granule membranes by the detergents Nonidet P-40, Triton X-100, and 3-[(3-cholamidopropyl)dimethylammonio]-1-propanesulfonate. Treatment of membranes with a phosphatidylinositol-specific phospholipase C did not remove TH, ruling out the possibility of a glycosyl phosphatidyl anchor. Fractionation of granule membranes by temperature-induced phase separation in Triton X-114 revealed that TH is recovered in phases in which integral (detergent phase) and hydrophobic (phospholipid phase) membrane proteins are typically found. By contrast, TH from adrenal cytosol fractionated exclusively into the aqueous phase along with other soluble proteins. Digestion of granules with various protease enzymes revealed that TH is resistant to degradation, suggesting that the enzyme is embedded within membranes. TH becomes phosphorylated when intact granules are exposed to the catalytic subunit of the cAMP-dependent protein kinase, indicating that at least the N-terminal region of TH is exposed on the cytoplasmic surface of granules. These results establish that a fraction of TH is an integral component of bovine granule membranes. The association of TH with granule membranes may play a role in coordinating TH activity and catecholamine release.
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PMID:Tyrosine hydroxylase in secretory granules from bovine adrenal medulla. Evidence for an integral membrane form. 196 7

Rats on calcium-deficient diets developed hypocalcemia, hyperparathyroidism and hypertension and showed an increase in plasma catecholamines. Adrenal gland catecholamines were decreased while tyrosine hydroxylase (TH) and dopamine beta-hydroxylase (DBH) were found to be increased, as compared to controls. In contrast, no significant differences were found between controls and parathyroidectomized rats in plasma catecholamines, and catecholamines, TH and DBH of the adrenal gland. These findings seem to indicate that the genesis of hypertension in rats on a low calcium diet is secondary to hyperparathyroidism caused by a low calcium diet. Furthermore, some relation between catecholamines and parathyroid hormone seems to exist in the regulation of blood pressure in rats.
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PMID:Dietary calcium deprivation increased the levels of plasma catecholamines and catecholamine-synthesizing enzymes of adrenal glands in rats. 196 34

The organization of presumptive dopamine- and norepinephrine-synthesizing neurons in the brains of goldfish is described by using antibodies to tyrosine hydroxylase (TH) and dopamine beta-hydroxylase (DBH) with avidin-biotin immunocytochemical techniques. In the hindbrain, TH-immunoreactive (IR) and DBH-IR cell bodies are located together in the following three regions: (1) dorsomedial medulla in the postobecular region, (2) medullary tegmentum from the level of the greatest expansion of the vagal lobes to the medullospinal transition, and (3) isthmal tegmentum dorsolateral to the medial longitudinal fasciculus. Elsewhere in the brain, TH-IR neurons were visualized in eight distinct forebrain neuronal groups; DBH-IR cell bodies were not observed. Fibers and terminals IR for TH and DBH were most dense in forebrain periventricular regions, i.e. adjacent to the third ventricle, and specifically around the lateral and preoptic recesses. In the telencephalon, a dense innervation of TH- and DBH-IR fibers was noted within the area dorsalis, pars lateralis and pars dorsalis. Within the area dorsalis, pars centralis TH-IR fibers were dense; DBH-IR fibers were not visualized in this region. The presence of both dopamine- and norepinephrine-synthesizing neurons in the isthmal and medullary tegmentum and in the dorsomedial medulla provides evidence indicating that these regions are homologous to the locus ceruleus, medullary reticular nucleus and area postrema, respectively, in tetrapod brains. In addition, the remarkably dense innervation of TH-IR and DBH-IR fibers and terminals in periventricular regions of the hypothalamus and within the telencephalon suggests that there are potential similarities in the catecholaminergic innervation of forebrain regions of teleost and mammalian brains.
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PMID:Distribution of catecholamine-synthesizing enzymes in goldfish brains: presumptive dopamine and norepinephrine neuronal organization. 197 Nov 89

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