EC:1.14.16.2 - FACTA Search

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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)

Polysomal poly(A)-mRNA was purified from a clonal cell line of rat pheochromocytoma (PC 12) and translated in a reticulocyte cell-free protein-synthesizing system. Tyrosine hydroxylase [tyrosine 3-monooxygenase; L-tyrosine, tetrahyropteridine:oxygen oxidoreductase (3-hydroxylating), EC 1.14.16.2] was isolated from other protein by immunoprecipitation and NaDodSO4/polyacrylamide gel electrophoresis. The molecular weight and relative proportion of tyrosine hydroxylase to other proteins synthesized in vitro were identical to those of the enzyme synthesized in vivo in cultured cells. Incubation of PC 12 cells with 10 microM dexamethasone increased the activity and amount of tyrosine hydroxylase 2.5-fold. The ratio of tyrosine hydroxylase to total protein translated from poly(A)-mRNA isolated from cells treated with dexamethasone was 2.5 times higher than the ratio of enzyme to total protein translated from an equal amount of poly(A)-mRNA from untreated cells. The dexamethasone-elicited induction of tyrosine hydroxylase in PC 12 cells therefore is a result of an increased "relative" amount or activity of tyrosine hydroxylase mRNA.
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PMID:Translation of tyrosine hydroxylase from poly(A)-mRNA in pheochromocytoma cells is enhanced by dexamethasone. 611 44

The acetone precipitation of a partially purified tyrosine 3-monooxygenase (L-tyrosine, tetrahydropteridine: oxygen oxidoreductase (3-hydroxylating), EC 1.14.16.2) resulted in the complete loss of enzymatic activity. The enzymatic activity was restored by incubation with iron and dithiothreitol. The restoration of the activity was a pH-, temperature- and time-dependent reaction. Since cobalt, nickel, copper, zinc, manganese, cadmium, magnesium calcium and barium ions were all ineffective in restoring activity, iron ion appeared to be specifically required in the restoration of the enzyme activity. Dithiothreitol could be partially replaced in the restoration step by glutathione, 2-mercaptoethanol or cysteine.
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PMID:Inactivation of tyrosine 3-monooxygenase by acetone precipitation and its restoration by incubation with a sulfhydryl agent and iron. 611 46

A reproducible purification procedure of native tyrosine hydroxylase (L-tyrosine, tetrahydropteridine : oxygen oxidoreductase (3-hydroxylating), EC 1.14.16.2) from the soluble fraction of the bovine adrenal medulla has been established. This procedure accomplished a 90-fold purification with a recovery of 30% of the activity. This purified enzyme served for studying the kinetic properties of tyrosine hydroxylase using (6R)-L-erythro-1',2'-dihydroxypropyltetrahydropterin [(6R)-L-erythro-tetrahydrobiopterin] as cofactor, which is supposed to be a natural cofactor. Two different Km values for tyrosine, oxygen and natural (6R)-L-erythro-tetrahydrobiopterin itself were obtained depending on the concentration of the tetrahydrobiopterin cofactor. In contrast, when unnatural (6S)-L-erythro-tetrahydrobiopterin was used as cofactor, a single Km value for each tyrosine, oxygen and the cofactor was obtained independent of the cofactor concentration. The lower Km value for (6R)-L-erythro-tetrahydrobiopterin was close to the tetrahydrobiopterin concentration in tissue, indicating a high affinity of the enzyme to the natural cofactor under the in vivo conditions. Tyrosine was inhibitory at 100 microM with (6R)-L-erythro-tetrahydrobiopterin as cofactor, and the inhibition by tyrosine was dependent on the concentrations of both pterin cofactor and oxygen. Oxygen at concentrations higher than 4.8% was also inhibitory with (6R)-L-erythro-tetrahydrobiopterin as cofactor.
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PMID:Kinetic properties of tyrosine hydroxylase with natural tetrahydrobiopterin as cofactor. 611 20

In embryonic mice, the catecholamine biosynthetic enzyme tyrosine hydroxylase [L-tyrosine, tetrahydropteridine:oxygen oxidoreductase (3-hydroxylating), EC 1.14.16.2] can be visualized immunocytochemically in a population of cells in epithelial cords of the developing pancreas. These embryonic catecholamine cells, first seen by day 11, are large and vacuolated and have a folded nuclear membrane. One day later, at day 12, glucagon is first detected immunocytochemically in pancreatic cells similar in location and morphology to the embryonic catecholamine cells. By use of a method for detecting both antigens in the same cell, both the hydroxylase and glucagon can be visualized between day 12 and day 14 in 10-40% of stained cells. From day 14, the number of cells stained for hydroxylase decreases; they cannot be detected after day 18. In contrast, the cells containing glucagon increase during development and persist throughout life. Endocrine cells of the embryonic pancreas also contain dopa decarboxylase but not dopamine-beta-hydroxylase or phenylethanolamine-N-methyl transferase. In adult mice, small cells containing tyrosine hydroxylase but differing in location and morphology from the embryonic catecholaminergic cells are seen in pancreatic islets. The adult catecholaminergic cells never store glucagon. We suggest that adult glucagon (A)-containing cells arise from transformation in situ of cells that transiently express a catecholaminergic (probably dopaminergic) phenotype. These results suggest that one class of peptidergic cells may arise from transformation of an aminergic precursor.
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PMID:Transformation of catecholaminergic precursors into glucagon (A) cells in mouse embryonic pancreas. 611 53

The distribution of dopamine-containing processes in the striatum of fetal and neonatal cats was studied by immunohistochemical and glyoxylic acid histofluorescence methods and compared to the distribution of acetylcholinesterase (acetylcholine acetylhydrolase, EC 3.1.1.7) observed by thiocholine histochemistry in the same or serially adjoining sections. Both methods for demonstrating the dopamine innervation revealed the characteristic patchwork of dopamine "islands" in the caudoputamen, in which catecholamine histofluorescence or tyrosine hydroxylase [tyrosine 3-monooxygenase; L-tyrosine, tetrahydropteridine:oxygen oxidoreductase (3-hydroxylating), EC 1.14.16.2]-like immunoreactivity was concentrated into 0.2- to 0.6-mm-wide patches. Both methods also demonstrated a high degree of patterning of the dopamine innervation in the ventral striatum, including the nucleus accumbens septi. A detailed and striking match was found between these configurations and the compartmental distribution of acetylcholinesterase observed in the caudoputamen and ventral striatum of the same brains. The correspondence between the dopamine and acetylcholinesterase figures was most obvious in the fetal brains, in which the background acetylcholinesterase staining was lightest, but matches between the dopamine islands and acetylcholinesterase patches could still be seen in the kittens. There was no clear alignment of striatal cell bodies stained for acetylcholinesterase with either the dopamine or the acetylcholinesterase-positive patches. Nor was there an obvious correspondence between dopamine and acetylcholinesterase in the striatal background matrix. We conclude that, at least during ontogenesis, it is the clustered arrangements of dopamine and acetylcholinesterase that are, in particular, tightly linked, and we suggest that information about the maturation of these clusters may be crucial in assessing the functions of striatal dopamine and acetylcholinesterase in the adult.
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PMID:Direct demonstration of a correspondence between the dopamine islands and acetylcholinesterase patches in the developing striatum. 611 60

A new method was developed to study the tyrosine hydroxylase (TH) system in rat adrenal slices by high-performance liquid chromatography (HPLC) with electrochemical detection (ED). TH activity was measured by determining DOPA, formed in adrenal slices containing all of the components of the TH system in the presence of an inhibitor of aromatic L-amino acid decarboxylase (NSD-1055), using a new and highly sensitive HPLC-ED method. The properties of the TH system in the slices were also examined. High K+ (52 mM) stimulated the formation of DOPA in the slices; this stimulation was not observed in Ca2+-free medium. Furthermore, the addition of ethyleneglycol bis (beta-aminoethylether)-N,N'-tetraacetic acid (EGTA) to a Ca2+-free medium not only abolished the stimulation by high K+ but also significantly inhibited the conversion of L-tyrosine to DOPA. This suggests that intracellular Ca2+ may regulate TH activity in the adrenal medulla. The enzyme in homogenates of normal adrenal slices had two different Km values for the tetrahydropterin cofactor. Alteration of enzyme kinetics using homogenates of adrenal slices that had been treated in various ways suggests that changes in the proportions of the two forms of TH produced by intracellular Ca2+ may regulate the activity of this enzyme in the adrenal medulla.
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PMID:Studies on the regulatory mechanism of the tyrosine hydroxylase system in adrenal slices by using high-performance liquid chromatography with electrochemical detection. 612 53

Activation of rat striatal tyrosine hydroxylase [TyrOHase; tyrosine monooxygenase; L-tyrosine, tetrahydropteridine:oxygen oxidoreductase (3-hydroxylating), EC 1.14.16.2] by ATP/Mg2+ and endogenous protein kinase can be produced without the addition of cAMP. This activation is not due to endogenous free catalytic subunit derived from cAMP-dependent protein kinase. In the presence of amounts of protein kinase inhibitor sufficient for complete inhibition of striatal cAMP-dependent protein kinase and the cAMP-mediated activation of TyrOHase, addition of ATP/Mg2+ results in an enhancement of TyrOHase activity. Enzyme activation does not occur when the nonhydrolyzable form of ATP, adenylyl imidodiphosphate, is substituted for ATP. When TyrOHase is assayed in the presence of ATP/Mg2+ and different concentrations of either tyrosine or 6-methyltetrahydropterin co-factor, a 2-fold increase in enzyme Vmax is demonstrable, with no change in the Km for either substrate or cofactor. In contrast, in the presence of cAMP and ATP/Mg2+, both an increase in Vmax and an enhanced affinity for pterin cofactor are demonstrable. In the latter circumstance, the 2-fold increase in Vmax can be attributed entirely to the action of cAMP-independent protein kinase. The addition of either EGTA or CaCl2 does not modify the effect seen in the presence of ATP, suggesting that the effect of ATP/Mg2+ is not mediated by a Ca2+-dependent protein kinase. These data support the existence of a cAMP-independent striatal protein kinase that can catalyze the activation of TyrOHase.
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PMID:Evidence for the involvement of a cyclic AMP-independent protein kinase in the activation of soluble tyrosine hydroxylase from rat striatum. 613 85

The steady-state kinetics of tyrosine hydroxylase [L-tyrosine, tetrahydropteridine: oxygen oxidoreductase (3-hydroxylating); EC 1.14.16.2] frequently exhibits complex features which confound interpretation of the results. Using an assay-enzyme system which is essentially devoid of the major mitigating kinetic features, a comprehensive kinetics data base has been compiled. The studies employed L-tyrosine, 5,6,7,8-tetrahydrobiopterin, and oxygen as substrates, and 3-(3',4'-dihydroxyphenyl)L-alanine, a deazapterin, 3-iodo-L-tyrosine, and dopamine as product, substrate analogue, and product analogue inhibitors, respectively. All three reactants were varied pairwise, and all inhibitors (except dopamine) were tested with each of the three substrates as variable substrate. The entire data base was interpreted exclusively in terms of models for classic saturation kinetics of enzyme catalysis, providing an internally consistent kinetic model and evidence for a sequential mechanism with partially ordered sequences for substrate addition and product release. Some possible mechanisms and experimental variables relating these results to more complex kinetics of tyrosine hydroxylase are considered briefly.
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PMID:Steady-state kinetics of bovine striatal tyrosine hydroxylase. 613 41

Computerized gas chromatography-mass spectrometry techniques using selected ion monitoring and deuterated internal standards were used to assay simultaneously the medial basal hypothalamic concentrations of dopamine (DA) and noradrenaline (NA) and their major metabolites in individual rats 30 min after the administration of two different inhibitors of tyrosine hydroxylase, alpha-methyl-p-tyrosine (alpha-MT) and 3-iodo-L-tyrosine (MIT). Consistent with inhibition of DA synthesis, administration of both alpha-MT and MIT resulted in marked reductions (P less than 0.005) in the hypothalamic concentrations of DA and its metabolite homovanillic acid as well as in highly significant increases in prolactin secretion. alpha-MT administration, but not MIT, resulted in a highly significant decrease in NA concentration and a highly significant increase in the concentration of the NA metabolite 3,4-dihydroxyphenylethyleneglycol (DHPG). The hypothalamic ratio DHPG/NA was thus markedly increased (P less than 0.005) by alpha-MT indicating increased NA neuronal activity. alpha-MT administration also resulted in increased ACTH secretion (P less than 0.0005), an effect not observed following MIT. It is proposed that the effects on hypothalamic NA activity and ACTH secretion caused by alpha-MT are stress-mediated and unrelated to tyrosine hydroxylase inhibition. MIT is devoid of these effects but exhibits blockade activity, thus indicating it to be a preferable drug for the acute inhibition of tyrosine hydroxylase in neuroendocrine investigations.
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PMID:Different acute effects of the tyrosine hydroxylase inhibitors alpha-methyl-p-tyrosine and 3-iodo-L-tyrosine on hypothalamic noradrenaline activity and adrenocorticotrophin release in the rat. 614

(R)-N6-Phenylisopropyladenosine (PIA) stimulates dopa production 3- to 5-fold in PC12 cells, with a half-maximal effective concentration (EC50) of 50 nM. This increase can be explained by a stable activation of tyrosine hydroxylase [TyrOHase; L-tyrosine, tetrahydropteridine:oxygen oxidoreductase (3-hydroxylating), EC 1.14.16.2] when it is phosphorylated by a cAMP-dependent protein kinase. The activation of TyrOHase is mediated by the adenosine-dependent activation of adenylate cyclase (EC50 = 600 nM). PIA (10 microM) is as effective as cholera toxin or dibutyryl cAMP in activating TyrOHase in wild-type cells. Adenosine kinase-deficient mutants of PC12 were found to be resistant to PIA-dependent activation of TyrOHase (EC50 = 100-1000 nM). This phenomenon was explored in detail in one adenosine kinase-deficient mutant and was shown to occur because the mutant was resistant to the adenosine-dependent activation of adenylate cyclase. In this mutant, TyrOHase was activated 14-fold by cholera toxin, suggesting that activated TyrOHase is about 14 times as active as unactivated TyrOHase. These studies with kinase-deficient PC12 cells provide genetic evidence that adenosine-dependent activation of TyrOHase is mediated by acute increases in cAMP. When the adenosine receptor found on PC12 cells is expressed in vivo, it might function as either a presynaptic (i.e., localized on the nerve terminal) or a postsynaptic (i.e., localized on the cell body or dendrite) receptor that regulates rates of transmitter synthesis in response to cell activity.
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PMID:Adenosine-dependent activation of tyrosine hydroxylase is defective in adenosine kinase-deficient PC12 cells. 614 82

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