Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:1.14.16.2 (tyrosine hydroxylase)
 14,760 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Salt-loading induces profound metabolic changes in magnocellular vasopressin (AVP)-containing neurons, including changes in levels of coexisting peptides and tyrosine hydroxylase (TH). Although many studies have been conducted on salt-loading, little information is available on the recovery processes following its cessation. In the present study, we investigated the changes in AVP, galanin (Gal), dynorphin B (Dyn-B), and TH immunoreactivities in the rat supraoptic nucleus (SON) and paraventricular nucleus (PVN) by immunocytochemistry using specific antisera against these substances. Salt-loading was induced in rats by dissolving 2% NaCl in their drinking water for 7 days. These animals were then allowed free access to fresh water for 2, 4, or 7 days prior to sacrifice. In the SON at the 7th day of salt-loading, AVP, Gal and Dyn-B immunoreactivities decreased in contrast to the marked increase in TH-immunoreactivity compared to those of control rats with free access to water. After a recovery period with free access to water, AVP and Gal immunoreactivities increased with time and returned to the control level at the 7th day. However, Dyn-B immunoreactivity did not recover even at the 7th day. Dehydration-induced TH-immunoreactive neurons almost disappeared at the 7th day. Immunoreactivities for these substances in the PVN showed a similar time course as that in the SON. These findings suggest that AVP and substances coexisting with it change with different time courses in magnocellular neurons following cessation of salt-loading.
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PMID:Rehydration process from salt-loading: recovery of vasopressin and its coexisting galanin, dynorphin and tyrosine hydroxylase immunoreactivities in the supraoptic and paraventricular nuclei. 753 8

To investigate the involvement of peripheral catecholamines in the development of Dahl-Iwai salt-sensitive (DIS/Eis) hypertension, we performed immunohistochemical staining of tyrosine hydroxylase (TH) in the superior cervical ganglia (SCG) of DIS/Eis rats and Dahl-Iwai salt-resistant (DIR/Eis) rats, and in situ hybridization histochemistry for demonstration of TH mRNA localization in the SCG of these rats. DIS/Eis and DIR/Eis rats were fed on a high (8%) salt diet or on a low (0.3%) salt diet for 4 weeks. Nerve cells in the SCG of DIS/Eis high salt rats exhibited more intense TH-immunoreactivity (P < 0.01) and hybridization signals (P < 0.01) than those of the other experimental groups. These findings suggest that activation of peripheral sympathetic nerves may account for hypertension in DIS/Eis rats on a high salt diet.
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PMID:Effect of dietary NaCl on tyrosine hydroxylase in the superior cervical ganglia of Dahl rats. 762 44

Trophic effects of platelet-derived growth factor -AA and -BB on developing (embryonic day 14) ventral mesencephalon were studied using the in vivo model of intraocular transplantation to sympathetically denervated host eyes. This model enabled studies of survival and growth of grafted brain tissue, dopaminergic fiber outgrowth from the grafts onto the host iris as well as morphological effects of platelet-derived growth factor on grafted tissue using markers for tyrosine hydroxylase and glial fibrillary acid protein. Growth of grafts was followed by repeated observations directly through the cornea of the host using a stereomicroscope. This revealed that there was no apparent effect on volume increase of mesencephalic grafts after treatments with either platelet-derived growth factor-AA (100 ng/ml buffer), platelet-derived growth factor-BB (100 ng/ml buffer) or vehicle solution (high salt buffer) alone. Growth factor treatments were administered immediately prior to grafting by incubating the grafts in the appropriate factor as well as on days 5, 10 and 15 postgrafting by administration of 5-microliters intraocular injections of similar solutions as used for incubation. Platelet-derived growth factor-AA significantly enhanced dopaminergic fiber outgrowth from mesencephalic grafts when compared to both platelet-derived growth factor-BB and controls, without an accompanying rise in the number of tyrosine hydroxylase-positive neurons. In contrast, a significantly greater number of tyrosine hydroxylase-positive neurons was seen in grafts treated with platelet-derived growth factor-BB but without an accompanying increase in outgrowth of dopamine-containing fibers.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Differential effects of platelet-derived growth factor isoforms on dopamine neurons in vivo: -BB supports cell survival, -AA enhances fiber formation. 790 18

Dopamine has been well recognized to be a precursor of norepinephrine, exhibiting cardiovascular effects through alpha-adrenoceptor stimulation by norepinephrine production and release in sympathetic nerve endings. It also has the specific and unique effects of natriuresis and vasodilation. Since dopamine is one of the important endogenous hypotensive and natriuretic substances, it is speculated that impaired dopamine generation and/or the disturbance of the effects of dopamine could cause hypertension with suppression of plasma renin activity and/or salt-sensitivity. A non-specific enzyme of aromatic L-amine acid decarboxylase (AAAD) converting from 3,4-dihydroxyphenylalanine (DOPA) to dopamine is widely distributed in the peripheral tissue, e.g. the sympatho-adrenomedullary system, the small intestine, the lung, the liver, the kidney, etc. Since tyrosine hydroxylase is a rate-limiting enzyme of catecholamine biosynthesis, DOPA generation in the neuronal tissues is accelerated with the sympathetic nerve activation by stress such as emotional and environmental changes, resulting in an increase of DOPA delivery to the non-neuronal tissues containing non-neuronal AAAD. More than five receptors for dopamine are cloned in the brain, and it is suggested that more than three different types of dopamine receptors are in the peripheral tissues. In spontaneously hypertensive rats, the post-receptor defect of renal dopamine D1-receptor has been proposed where peripheral dopamine generation compensatorily increased. In Dahl salt-sensitive rats, another model of genetic hypertension, the blunted response of urinary dopamine to sodium loading has been demonstrated. It is controversial whether abnormalities of the neuronal and/or non-neuronal (particularly renal) dopamine system play a contributory role on the pathogenesis of essential hypertension. However, it is plausible that the impairment of dopamine generation and/or the defective responses of a dopamine receptor might induce sodium retention and hypertension.
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PMID:[Dopamine and hypertension]. 826 73

Dopamine (DA) is the most abundant catecholamines in human plasma and exists mostly in the sulfo-conjugated form (DA sulfate), a biologically inactive metabolite. The paucity of unconjugated DA (PDA) in plasma throws doubt on its physiological significance. However, PDA, when measured with a highly sensitive radioenzymatic method, showed quite different features from norepinephrine and epinephrine in some types of clinical hypertension, lower in essential hypertension and higher in primary aldosteronism and pheochromocytoma. There was a weak but significant correlation between the values of PDA and DA sulfate measured in the same specimens, but DA sulfate was more susceptible to impaired renal function. Upright posture, high salt diets and an intravenous injection of metoclopramide (MCP, 10 mg), a DA receptor antagonist, induced a slight but significant increase in PDA in normal and hypertensive subjects. An intravenous dexamethasone (2 mg) caused a gradual increase in PDA over 150 min after medication, which was completely blocked by concomitant administration of alpha-methyl-p-tyrosine, a tyrosine hydroxylase inhibitor. The responses of PDA to both high salt diets and MCP were blunted in salt-sensitive patients with uncomplicated essential hypertension. The results suggest that DA is not only a precursor of norepinephrine biosynthesis but also plays an inherent role as an active neurotransmitter in the peripheral sympathoadrenal system, and that PDA is a sensitive marker of peripheral dopaminergic activity, which may operate to modulate the cardiovascular and endocrine functions and participate in the pathogenesis of some types of hypertension.
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PMID:Plasma free dopamine: physiological variability and pathophysiological significance. 852 77

This study examines the effects of high K+ concentration on the growth and development of mesencephalic cells and their glutamate vulnerability. Mesencephalic cell cultures obtained from Wistar rat embryos on the 14th gestational day were maintained for 14 days in medium with either normal (4.2 mM) or elevated (24.2 mM) potassium concentration. There was no significant difference due to various K+ concentration in cell growth and survival up to day in vitro (DIV) 13-14. In order to test the glutamate (Glu) vulnerability, cultures were treated with 100 mu M Glu for 15 min in salt solution on the DIV 3,6,8 and 13. Glu-induced neuronal damage was estimated 24 h later by measuring the neuron-specific enolase (NSE) content in the culture medium and by counting the number of tyrosine hydroxylase-immunoreactive (TH-IR) neurons. Glu had no damaging effect on the cells on DIV 3, but became pronounced beyond DIV 6. Elevated potassium concentration 24.2 mM) in the culture medium during development significantly increased neuronal vulnerability to Glu treatment, indicated by a higher increase of NSE content in the medium and by a more pronounced Glu-induced decrease of the number of TH-IR cells. The Glu-induced decrease of the number of TH-IR cells and of NSE-IR cells let us conclude that dopaminergic neurons are more vulnerable to glutamate than other neurons from mesencephalic culture.
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PMID:Elevated potassium enhances glutamate vulnerability of dopaminergic neurons developing in mesencephalic cell cultures. 863 40

Manipulation of dopamine levels by inhibition of tyrosine hydroxylase activity was accomplished in Drosophila melanogaster larval instars by feeding enzyme inhibitors for a 24-hr period. Behavioral assays performed immediately after treatment demonstrated that larval phototaxis, salt aversion, and heptanol preference were unaffected by reduced levels of dopamine. Within a few hours of treatment, the larvae ceased exploratory behavior and were unresponsive to external stimuli; these larvae eventually died. This behavior is strikingly similar to that displayed by dopamine-deficient transgenic mice. Treated larvae placed immediately onto normal food (to replenish dopamine levels) showed significant developmental delays and decreased fertility as adults. The lethality, developmental retardation, and decrease in fertility were reversed by addition of L-DOPA to inhibitor-containing food, suggesting that these effects were due solely to inhibition of tyrosine hydroxylation. Depletion of dopamine in newly eclosed females resulted in abnormally developed ovaries. These results suggest that the enzymatic function of tyrosine hydroxylase is vital and that reduced levels of dopamine result in akinesia and lethality, developmental retardation, and decreased fertility.
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PMID:Multiple roles for dopamine in Drosophila development. 866 Aug 62

Administration of high doses of glutamate (Glu) leads to selective neurodegeneration in discrete brain regions near circumventriclular organs of the early postnatal mouse. The arcuate nucleus-median eminence complex (ARC-ME) appears to be the most Glu-sensitive of these brain regions, perhaps because of the intimate relationships between its neurons and specialized astroglial tanycytes. To investigate the mechanism of Glu-induced neuronal loss, we administered graded doses of the sodium salt of glutamate (MSG) to postnatal mice, measured their plasma Glu concentrations, and performed microscopic analyses of the ARC-ME region 5 h after treatment. Nursing, 7-day-old mouse pups (CD1, Charles River, Hollister, Calif.) were injected subcutaneously with single doses of 0.1-0.5 or 1.0-4.0 mg of MSG per g BW, or with water vehicle alone. Mice were decapitated 5 h later and the brains immediately fixed by immersion in buffered aldehydes. Frontal vibratome tissue sections at comparable levels of the ARC-ME were examined by light microscopy. A dose of 4.0 mg MSG/g BW caused neurodegeneration throughout the ARC region, while 1.0 mg/g MSG resulted in less extensive damage. Injection of 0.2 mg MSG/g BW, which raised plasma Glu concentrations 17-fold after 15 min, was the minimum dose tested at which nuclear and cytoplasmic changes were observed in a small group of subependymal neurons near the lateral recesses of the third ventricle. Higher doses of 0.3-0.5 mg MSG caused injury to additional neurons situated farther laterally, but damage remained confined to the ventral region of the ARC nucleus. Ultrastructural examination showed some subependymal neurons with pyknotic nuclei, reduced cytoplasmic volume, and swollen subcellular organelles, while others had fragmented and condensed nuclear material. Immunostaining for tyrosine hydroxylase indicated that dopamine neurons were spared at the threshold dose, but suffered damage after higher doses of MSG. Immunostaining for Glu receptor subtypes revealed that 0.2 mg MSG/g BW enhanced neuronal expression of NMDAR1 and of GluR2/4, and that higher doses of MSG preferentially increased NMDAR1 expression in injured neurons. These results extend previous reports of Glu sensitivity in the ARC-ME region of 7-day postnatal mice. A dose of 0.2 mg MSG/g BW s.c. causes clear but discrete injury to specific subependymal neurons of undetermined phenotype near the base of the third ventricle. Slightly higher doses of MSG evoke damage of additional neurons confined to the ventral region of the ARC traversed by tanycytes. These same greater amounts of MSG promote dose-related increase in the expression of NMDAR1 more than of GluR2/4 in injured ARC neurons, suggesting that elevated Glu receptor levels may contribute to or be related to neuronal cell death. Taken together with previous findings, the data suggest that Glu responsitivity in the ARC-ME of the postnatal mouse may result from transient developmental conditions involving the numerical ratios and juxtaposition between tanycytes and neurons, expression of Glu receptors, and perhaps other ontogenetic factors which may not persist in the mature adult.
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PMID:Exogenous glutamate enhances glutamate receptor subunit expression during selective neuronal injury in the ventral arcuate nucleus of postnatal mice. 970 74

Adrenergic markers and neuropeptide Y (NPY) were examined in Dahl NaCl-sensitive and -resistant outbred male rats, fed either 0.35% or 8% NaCl diets for 8 weeks. The high salt diet caused left ventricular hypertrophy in sensitive rats but not in the resistant strain. Norepinephrine stores were not affected by high salt intake, but tyrosine hydroxylase, and dopamine beta-hydroxylase were elevated in the salt-induced hypertrophied left ventricle in conjunction with increased levels of nerve growth factor and p75 neurotrophin receptor. In contrast, high salt intake reduced ventricular neuropeptide Y in both Dahl salt-resistant and -sensitive rats.
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PMID:Differential effects of high salt intake on neuropeptide Y and adrenergic markers in hearts of Dahl rats. 980 52

This study has evaluated the dynamic of intracellular vasopressin and tyrosine hydroxylase contents in the neuron cell bodies in the supraoptic nucleus and in the axons of the posterior lobe in rats drinking 2% NaCl for 1, 2, and 3 weeks. The number of vasopressin-immunoreactive neurons increased by the end of the second week of osmotic stimulation that might be explained by the onset of vasopressin synthesis in the neurons which do not synthesize this neurohormone under normal physiological conditions. The concentration of vasopressin fell down continuously during the first two weeks of salt-loading, apparently, due to predominance of the vasopressin release over its synthesis. Over the third week of salt-loading, the intracellular concentration of vasopressin was not changed significantly suggesting the establishment of the dynamic equilibrium between the vasopressin synthesis and release. The number of tyrosine hydroxylase-immunoreactive neurons and the amount of tyrosine hydroxylase in cell bodies and the large axonal swellings, Herring bodies, increased gradually showing that the rate of tyrosine hydroxylase synthesis prevailed over that of its enzymatic degradation. Thus, the chronic stimulation of vasopressin neurons is accompanied by a number of the adaptive reactions; the most important is related to the onset of vasopressin and tyrosine hydroxylase synthesis in the neurons which do not synthetize both of them under normal conditions.
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PMID:[Response of vasopressin and tyrosine hydroxylase expressing neurons of the rat supraoptic nucleus to chronic osmotic stimulation]. 1051 3


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