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)

Catecholamine biosynthesis and its stimulus-evoked release in PC12 pheochromocytoma cells were studied as a function of cell cycle by means of HPLC with electrochemical detection. We found that 3,4-dihydroxyphenylethylamine (dopamine) levels in PC12 cells remained constant throughout the period of cell cycle. In contrast, the noradrenaline content was dependent on the cell cycle: it increased during the S + G2 phase followed by a decrease in the M phase. These results were confirmed further by measuring the activities catalyzing the catecholamine biosynthesis. Thus, activities of tyrosine 3-monooxygenase and 3,4-dihydroxyphenylalanine decarboxylase were independent of the cell cycle, whereas both soluble and membrane-bound dopamine beta-monooxygenase activities were modulated during the cell cycle. On the other hand, release of the catecholamines stimulated with 50 mM KCl increased in the G1 phase, reached a maximum in the late G1, and then gradually decreased in later periods. We also found that carbamylcholine-induced release of the catecholamines occurred maximally in the early S + G2 phase followed by a decrease during the M phase. Cell cycle dependence of the catecholamine release was in good agreement with that of 45Ca2+ uptake. Thus, this study provides evidence that the catecholamine biosynthesis and its release in PC12 cells are modulated during the period of cell cycle.
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PMID:Cell cycle-dependent modulation of biosynthesis and stimulus-evoked release of catecholamines in PC12 pheochromocytoma cells. 287 Jan 33

Changes in the activity of dopaminergic neurons associated with intracranial self-stimulation of the ventral tegmentum were assessed by measuring the accumulation of 3,4-dihydroxyphenylalanine (DOPA) after inhibition of aromatic amino acid decarboxylase by NSD-1015. When compared to implanted unstimulated controls, DOPA concentrations were elevated significantly in the nucleus accumbens, striatum and olfactory tubercle in the hemisphere ipsilateral to the electrode, after a 30 min session of self-stimulation. The concentration of DOPA in the contralateral nucleus accumbens and striatum did not differ from control levels, although relative to control values it was significantly increased in the contralateral olfactory tubercle. A similar analysis of in vivo tyrosine hydroxylase activity in these brain regions following a 30 min session of lever pressing for food reward on a fixed-ratio (FR-8) schedule failed to reveal any significant changes relative to control subjects. These results are consistent with a role for dopamine in brain-stimulation reward obtained from electrical stimulation of the ventral tegmental area but do not provide evidence for dopaminergic mediation of the rewarding properties of food.
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PMID:Increased in vivo tyrosine hydroxylase activity in rat telencephalon produced by self-stimulation of the ventral tegmental area. 288 97

The role of dopamine autoreceptors on nerve terminals in controlling the activity of tyrosine hydroxylase in the striatum was examined using a model involving supramaximal electrical stimulation of the nigro-neostriatal fibers and accumulation of 3,4-dihydroxyphenylalanine (DOPA) as a measure of the activity of tyrosine hydroxylase in vivo. In this way effects of drugs on impulse flow in these neurons could be negated and the effects on dopamine autoreceptors evaluated. Electrical stimulation, haloperidol, pimozide and clozapine increased the activity of tyrosine hydroxylase in vivo while trivastal, a dopamine agonist, had no significant effect. Combination of electrical stimulation with haloperidol or pimozide produced an additive effect on the activity of tyrosine hydroxylase, consistent with blockade of autoreceptors on nerve terminals. The combination of stimulation with clozapine (a drug shown to have minimal blocking action on autoreceptors in this model) produced an effect equivalent to stimulation alone, consistent with a lack of effect on autoreceptors. Trivastal reduced the effect of electrical stimulation, indicating a stimulatory action on dopamine autoreceptors on nerve terminals. These data are consistent with the theory of regulation of the activity of tyrosine hydroxylase in dopaminergic nerve terminals of the striatum by means of dopamine autoreceptors.
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PMID:Nigrostriatal dopamine neurons: modulation of impulse-induced activation of tyrosine hydroxylation by dopamine autoreceptors. 288 75

The in vivo and in vitro effects of TRH on tyrosine hydroxylase activity and on endogenous levels of noradrenaline as an index of noradrenergic neurons activity were studied in rat hypothalamus. The hydroxylation of tryptophan and the liberation of 5-hydroxyindole acetic acid were analyzed as an index of serotoninergic activity. TRH had no effect on tyrosine hydroxylase from hypothalamic homogenates in concentrations up to 100 ng/ml. Neither was the hydroxylation of tyrosine in intact hypothalamus. The TRH (4 micrograms/kg) decreased 5-hydroxytryptophan and 3,4-dihydroxyphenylalanine accumulation after 10 min, and no effect on serotonin and noradrenaline concentrations was observed. TRH decreased endogenous levels of 5-hydroxyindole acetic acid by 35%. Thus, the results show that TRH or TSH might play a role in a short-loop feedback action involving catecholaminergic and serotonergic nerve terminals that regulate the liberation of TRH.
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PMID:Effects of TRH on hypothalamic catecholaminergic and serotoninergic neurons. 288 96

A rapid and reliable method for determination of in vivo activities of tyrosine hydroxylase in the rat adrenal gland is presented. This method involves determining the rate of accumulation of 3,4-dihydroxyphenylalanine (Dopa) in the adrenal gland after decarboxylase inhibition by NSD 1015, using HPLC with electrochemical detection after purification of the acid-deproteinized tissue extract with Bio-Rex 70 columns followed by alumina batch method. Purification of the sample with alumina adsorption alone, a method usually used for purification of catecholamines and Dopa, was ineffective: epinephrine and norepinephrine, which are present in high concentrations, interfered with an accurate determination of Dopa, and dopamine, which is retained strongly on the reverse-phase column, interfered with a rapid analysis. Purification with Sephadex G-10 columns followed by alumina adsorption was also ineffective. After purification with columns of weak cation-exchange resins such as Bio-Rex 70 or Amberlite CG-50 followed by alumina adsorption, most of the epinephrine and norepinephrine was removed and dopamine was eliminated. Thus a rapid and accurate determination of Dopa could be made. Of the two cation exchangers, Bio-Rex 70 was more effective. Accumulation of Dopa in the adrenal gland was linear up to 30 min after administration of NSD 1015 and a plateau was reached with doses over 10 mg/kg. Using this method, we investigated the effects of immobilization stress, reserpine, and hypoxia on in vivo activities of tyrosine hydroxylase in the adrenal gland.
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PMID:A nonisotopic method for determination of the in vivo activities of tyrosine hydroxylase in the rat adrenal gland. 289 73

Biphasic electrical field stimulation (0.5-5 Hz, 2 ms, 25 V, 3 min) and high K+ (10-30 mM, 5 min) released endogenous 3,4-dihydroxyphenylalanine (DOPA) from superfused rat striatal slices. Characteristics of the DOPA release were compared with those of 3,4-dihydroxyphenylethylamine (dopamine, DA). Electrical stimulation at 2 Hz evoked DOPA and DA over similar time courses. alpha-Methyl-p-tyrosine (0.2 mM) markedly reduced release of DOPA but not of DA. Maximal release (0.3 pmol) of DOPA was obtained at 2 Hz and at 15 mM K+. The impulse-evoked release of DOPA and DA was completely tetrodotoxin (0.3 microM) sensitive and Ca2+ dependent and the 15 mM K+-evoked release was also Ca2+ dependent. On L-[3,5-3H]tyrosine (1 microM) superfusion, high K+ (15 and 60 mM) released DOPA and DA together with concentration-dependent decreases in tyrosine 3-monooxygenase (EC 1.14.16.2) activity as indicated by [3H]H2O formation, followed by concentration-dependent increases after DOPA and DA release ended. These findings suggest that striatal DOPA is released by a Ca2+-dependent excitation-secretion coupling process similar to that involved in transmitter release.
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PMID:Transmitter-like release of endogenous 3,4-dihydroxyphenylalanine from rat striatal slices. 289 24

To elucidate the source and physiological significance of plasma 3,4-dihydroxyphenylalanine, the immediate product of the rate-limiting step in catecholamine biosynthesis, plasma 3,4-dihydroxyphenylalanine was quantified in conscious rats after administration of reserpine, desipramine, clorgyline, or forskolin, treatments that affect tyrosine hydroxylase activity. Plasma 3,4-dihydroxyphenylalanine was also examined during infusions of norepinephrine with or without clorgyline, reserpine, or desipramine pretreatment. After reserpine, the plasma 3,4-dihydroxyphenylalanine level decreased by 22% and then increased by 40%, a result consistent with modulation of tyrosine hydroxylase activity first by an increased axoplasmic norepinephrine content and then by depletion of norepinephrine stores. After desipramine, the plasma 3,4-dihydroxyphenylalanine level decreased by 20%, reflecting the depressant effect of neuronal uptake blockade on norepinephrine turnover. Forskolin increased the plasma 3,4-dihydroxyphenylalanine level by 30%, consistent with activation of tyrosine hydroxylase by cyclic AMP-dependent phosphorylation. Acute administration of clorgyline was without effect on the plasma 3,4-dihydroxyphenylalanine level. Norepinephrine infusions decreased the plasma 3,4-dihydroxyphenylalanine concentration, as expected from end-product inhibition of tyrosine hydroxylase. Pretreatment with desipramine prevented the norepinephrine-induced decrease in plasma dihydroxyphenylalanine content, indicating that inhibition of tyrosine hydroxylase required neuronal uptake of norepinephrine. Both reserpine and clorgyline augmented the norepinephrine-induced decrease in plasma 3,4-dihydroxyphenylalanine level, suggesting that retention of norepinephrine in the axoplasm--due to inhibition of norepinephrine sequestration into storage vesicles or catabolism--caused further inhibition of tyrosine hydroxylase. Changes in plasma 3,4-dihydroxyphenylalanine concentration during norepinephrine infusions were negatively correlated with those in plasma 3,4-dihydroxyphenylglycol level, a finding consistent with modulation of tyrosine hydroxylase activity by axoplasmic norepinephrine. In reserpinized animals, clorgyline and norepinephrine infusion together decreased the plasma 3,4-dihydroxyphenylalanine content by 50%, a result demonstrating that hydroxylation of tyrosine was depressed by at least half. The results indicate that quantification of plasma 3,4-dihydroxyphenylalanine can provide a simple and direct approach for examination of the rate-limiting step in catecholamine biosynthesis.
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PMID:Source and physiological significance of plasma 3,4-dihydroxyphenylalanine in the rat. 290 61

Recent reports about tyrosine hydroxylase and alpha 1-adrenoceptors in epileptic foci have suggested increased regional catecholaminergic activity, which may serve a compensatory, inhibitory role. We measured levels of catechols, including the precursor 3,4-dihydroxyphenylalanine (DOPA) and the catecholamines dopamine (DA) and norepinephrine (NE), in surgically removed foci identified by electrocorticography and in nonepileptogenic sites from 23 patients with intractable temporal lobe epilepsy. The following values (mean +/- 1 SD) were obtained: DOPA = 142 +/- 60 ng/g of protein in the focus vs. 115 +/- 39 ng/g in the nonfocus (p less than 0.01); DA = 168 +/- 85 vs. 106 +/- 54 ng/g (p less than 0.001); and NE = 267 +/- 117 vs. 181 +/- 80 ng/g (p less than 0.001). The results are consistent with increased catecholaminergic activity in epileptic foci.
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PMID:Levels of catechols in epileptogenic and nonepileptogenic regions of the human brain. 312 88

Systemic administration of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) caused a rapid and long-lasting reduction of both 3,4-dihydroxyphenylalanine (dopamine, DA) and noradrenaline (NA) in mouse brain, as observed histo- and neurochemically. The depleting effects were more pronounced after repeated MPTP administration and the most marked reductions were observed after 2 X 50 mg MPTP/kg s.c., when DA in striatum and NA in frontal cortex were reduced by greater than 90% 1 week after MPTP. Mice with such catecholamine depletions were markedly sedated and almost completely immobilized. The behavioural syndrome after MPTP resembled that seen after reserpine, a monoamine-depleting drug. MPTP also caused a long-lasting reduction of catecholamine uptake in striatal DA and cortical NA nerve terminals and reduced tyrosine hydroxylase activity in these regions. There was no evidence that MPTP caused any marked DA and NA cell body death. MPTP given acutely transiently elevated serotonin levels. The results are compatible with a neurotoxic action of MPTP on both DA and NA nerve terminals. The nigro-striatal DA and the locus coeruleus NA neurone systems appeared to be most susceptible. Synthesis and utilization of residual striatal DA and cortical NA were increased, as often observed in partially denervated monoamine-innervated brain regions. Both DA and NA showed a gradual recovery, which took months to become complete and may have been related to a regrowth of catecholamine nerve terminals.
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PMID:Neurochemical and histochemical characterization of neurotoxic effects of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine on brain catecholamine neurones in the mouse. 388 May 81

Neurochemical alterations, which may be associated with the development of diabetic retinal dysfunction, were investigated using streptozotocin (STZ)-induced hyperglycemia in rats. Young male Wistar rats, weighing 100-150 g, were made diabetic with daily intraperitoneal injections of STZ (30 mg/kg) for 5 days. This treatment caused a continuous hyperglycemia (400-600 mg/dl) and suppressed gain in body weight. Nine weeks after the STZ treatment, a significant increment in retinal valine and a decline in phenylalanine were noted, while the concentrations of other neuroactive amino acids, such as gamma-aminobutyric acid and aspartic acid, in the retina remained unchanged. On the other hand, the concentration of retinal dopamine (DA) was found to decrease significantly from the third week of hyperglycemia, when [3H]spiperone binding showed a tendency to increase in the retinal particulate fraction. However, the activities of tyrosine hydroxylase and aromatic L-amino acid decarboxylase (AADC) and the uptake of [3H]tyrosine showed no alteration in the retina of diabetic rats. The accumulation rate of 3,4-dihydroxyphenylalanine (DOPA) in vivo in the retina of diabetic rats, measured following the administration of the AADC inhibitor m-hydroxybenzyl-hydrazine (100 mg/kg i.p.), was also unchanged. Although [3H]DA uptake by retinal tissue was similar in control and diabetic animals, the spontaneous efflux of [3H]DA from the retina was found to be significantly accelerated in STZ-treated animals. In addition, the release of preloaded [3H]DA, elicited by repeated photic stimulation, was significantly attenuated in retina from diabetic rats. These results suggest that an accelerated efflux of DA, possibly leading to the depletion of DA from the retinal DA system, may account for early retinal dysfunctions known to occur in diabetic subjects.
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PMID:Alterations in the retinal dopaminergic neuronal system in rats with streptozotocin-induced diabetes. 392 83


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