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)

We have investigated adrenal mRNA expression of the catecholamine synthetic enzymes tyrosine hydroxylase (TH) and phenylethanolamine N-methyltransferase (PNMT) following acute hypoxia in fetal sheep before (< 105 days gestation, n = 20) and after (> 125 days gestation, n = 20) the development of adrenal innervation and following pretreatment with the nicotinic receptor anatgonist hexamethonium (n = 12). Total RNA was extracted from fetal adrenal glands collected at specific time points at 3-20 h after the onset of either hypoxia ( approximately 50% reduction in fetal arterial oxygen saturation (SO2) for 30 min), or normoxia. Before 105 days, there was a decrease in adrenal TH mRNA expression at 20 h after hypoxia and adrenal TH mRNA expression was directly related to the changes in arterial PO2 measured during normoxia and hypoxia. After 125 days, adrenal TH mRNA levels were suppressed for up to 12 h following hypoxia. In both age groups, adrenal PNMT mRNA expression increased at 3-5 h after hypoxia and was inversely related to the changes in fetal arterial PO2 during normoxia or hypoxia. After 125 days, the administration of hexamethonium (25 mg kg(-1), I.V.) reduced TH mRNA but not PNMT mRNA expression after normoxia. After hexamethonium pretreatment, there was no significant change in either adrenal TH or PNMT mRNA expression following hypoxia. We conclude that acute hypoxia differentially regulates adrenal TH and PNMT mRNA expression in the fetal sheep both before and after the development of adrenal innervation. After the development of adrenal innervation, however, the effect of acute hypoxia upon adrenal TH and PNMT mRNA expression is dependent upon neurogenic input acting via nicotinic receptors.
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PMID:Actions of hypoxia on catecholamine synthetic enzyme mRNA expression before and after development of adrenal innervation in the sheep fetus. 1111 87

Pheochromocytoma is a catecholamine (CA)-producing tumor that is classified into two types: the norepinephrine (NE) and the mixed NE and epinephrine type (E-type) from plasma CA levels. Phenylethanolamine N-methyltransferase (PNMT) is the terminal enzyme in CA synthesis; it catalyzes the synthesis of E from NE. It is not known whether the absence of immunoreactive PNMT is paralleled by a lack of PNMT mRNA. The mRNA of tyrosine hydroxylase (TI-I) and PNMT in seven pheochromocytomas, five NE-type and two E-type tumors, were examined by Northern blot analysis and in situ hybridization (ISH) technique. TH mRNA was detected in all tumors but PNMT mRNA was limited only to the E-type tumors. In addition to our previous immunohistochemical study of 70 pheochromocytomas and paragangliomas in which all pheochromocytomas had cells immunoreactive to TH, but PNMT was expressed only in E-type, we concluded that NE-type pheochromocytoma lacks PNMT both at the mRNA and protein levels, resulting in an inability to produce E. The essential difference between NE-type and E-type pheochromocytoma is that the NE-type lacks PNMT.
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PMID:Deficiency of Phenylethanolamine N-Methyltransferase in Norepinephrine-Producing Pheochromocytoma. 1211 40

The hypothalamic corticotropin-releasing hormone system and the sympathetic nervous system are anatomically and functionally interconnected and hormones of the hypothalamic-pituitary-adrenocortical axis contribute to the regulation of catecholaminergic systems. To investigate the role of glucocorticoids on activity of the adrenal gland, we analysed plasma and adrenal catecholamines, tyrosine hydroxylase (TH) and phenylethanolamine N-methyltransferase (PNMT) mRNA expression in rats injected with metyrapone or dexamethasone. Metyrapone-treated rats had significantly lower epinephrine and higher norepinephrine production than control rats. Metyrapone increased TH protein synthesis and TH mRNA expression whereas its administration did not affect PNMT mRNA expression. Dexamethasone restored plasma and adrenal epinephrine concentrations and increased PNMT mRNA levels, which is consistent with an absolute requirement of glucocorticoids for PNMT expression. Adrenal denervation completely abolished the metyrapone-induced TH mRNA expression. Blockage of cholinergic neurotransmission by nicotinic or muscarinic receptor antagonists did not prevent the metyrapone-induced rise in TH mRNA. Finally, pituitary adenylate cyclase activating polypeptide (PACAP) adrenal content was not affected by metyrapone. These results provide evidence that metyrapone-induced corticosterone depletion elicits transsynaptic TH activation, implying noncholinergic neurotransmission. This may involve neuropeptides other than PACAP.
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PMID:Metyrapone-induced glucocorticoid depletion modulates tyrosine hydroxylase and phenylethanolamine N-methyltransferase gene expression in the rat adrenal gland by a noncholinergic transsynaptic activation. 1253 65

The mechanisms underlying the onset of obesity are complex and not completely understood. An imbalance of autonomic nervous system has been proposed to be a major cause of great fat deposits accumulation in hypothalamic obesity models. In this work we therefore investigated the adrenal chromaffin cells in monosodium glutamate (MSG)-treated obese female mice. Newborn mice were injected daily with MSG (4 mg/g body weight) or saline (controls) during the first five days of life and studied at 90 days of age. The adrenal catecholamine content was 56.0% lower in the obese group when compared to lean controls (P < 0.0001). Using isolated adrenal medulla we observed no difference in basal catecholamine secretion percentile between obese and lean animals. However, the percentile of catecholamine secretion stimulated by high K+ concentration was lower in the obese group. There was a decrease in the tyrosine hydroxylase enzyme expression (57.3%, P < 0.004) in adrenal glands of obese mice. Interestingly, the expression of dopamine beta-hydroxylase was also reduced (47.0%, P < 0.005). Phenylethanolamine N-methyltransferase expression was not affected. Our results show that in the MSG model, obesity status is associated with a defective adrenal chromaffin cell function. We conclude that in MSG obesity the low total catecholamine content is directly related to a decrease of key catecholamine-synthesizing enzymes, which by its turn may lead to a defective catecholamine secretion.
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PMID:Adrenal medullary function and expression of catecholamine-synthesizing enzymes in mice with hypothalamic obesity. 1509 22

Stress-induced changes in mRNA levels of tyrosine hydroxylase (TH), dopamine-beta-hydroxylase (DBH), and phenylethanolamine N-methyltransferase (PNMT) have been expressed as relative arbitrary units compared with a control group. The aim of this study was to quantify basal and stress-induced levels of TH, DBH, and PNMT mRNAs in rat adrenal medulla (AM) and stellate ganglia (SG) by the RT-competitive PCR method using corresponding competitors of known concentration. In rats stressed by immobilization (IMO) once for 2 h, the concentration of mRNAs was determined in various intervals after the end of stress stimulus. In SG, the basal concentration of TH mRNA was 0.017 amol/ng of total RNA, which is approximately 30 times lower than in the AM (0.460 amol/ng RNA). The basal concentration of DBH mRNA in SG was 2.60 amol/ng of total RNA, which is about 150 times more than TH mRNA in SG but only two times less than DBH mRNA in the AM in which PNMT mRNA is present in the highest concentration. After a single 2-h IMO, the peak elevation of TH and DBH mRNA concentration in SG occurred 24 h after the termination of stress stimulus, when their AM mRNA concentrations were already at control values. Presence of PNMT mRNA levels in the SG, of control and stressed rats has been demonstrated for the first time. Repeated IMO (7 days, 2 h daily) did not produce further increase in the mRNA concentrations compared with the elevated values found in adapted control groups. Levels of TH protein were significantly increased only after repeated IMO in SG and AM. Thus, our data show for the first time the exact concentrations of TH, DBH, and PNMT mRNA in SG and AM of rats under control and stress conditions. The lowest concentration of TH mRNA in the AM and SG supports the hypothesis that tyrosine hydroxylation is the rate-limiting step in catecholamine biosynthesis.
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PMID:Quantitative evaluation of catecholamine enzymes gene expression in adrenal medulla and sympathetic Ganglia of stressed rats. 1524 Mar 91

The c-fos knockout mice (c-fos KO) and corticotropin-releasing hormone knockout mice (CRH KO) can serve as interesting models for studying mechanisms involved in response of the organism to stress, focused mainly on the hypothalamic-pituitary-adrenal (HPA) axis and sympathoadrenal system (SAS). The present study focused on the investigation of changes in gene expression of catecholamine biosynthesizing enzymes tyrosine hydroxylase (TH), dopamine-beta-hydroxylase (DBH), and phenylethanolamine N-methyltransferase (PNMT) in adrenal medulla of c-fos KO and CRH KO mice stressed by immobilization. Levels of TH, DBH, and PNMT mRNA were determined by reverse transcription-polymerase chain reaction (RT-PCR). Single immobilization for 2 h significantly increased adrenomedullary TH, DBH, and PNMT mRNA levels in both c-fos KO and wild-type (WT) mice compared to unstressed controls. In CRH KO mice, PNMT gene expression was not increased to the same extent after single, but especially after repeated immobilization as in WT mice, in contrast to TH and DBH mRNA levels. Thus, our data indicate that CRH deficiency can influence the PNMT mRNA level in adrenal medulla during stress, confirming the idea that the HPA axis plays the crucial role in PNMT gene regulation in mice. On the other hand, c-Fos protein probably does not play a crucial role in TH, DBH, and PNMT gene expression in adrenal medulla under stress conditions.
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PMID:Catecholamine synthesizing enzymes and their modulation by immobilization stress in knockout mice. 1524 Apr 2

Epinephrine, norepinephrine, and corticosterone responses to hypoglycemia are impaired in diabetic rats. Recurrent hypoglycemia further diminishes epinephrine responses. This study examined the sympathoadrenal system and hypothalamo-pituitary-adrenal axis for molecular adaptations underlying these defects. Groups were normal (N) and diabetic (D) rats and diabetic rats exposed to 4 days of 2 episodes/day of hyperinsulinemic hypoglycemia (D-hypo) or hyperinsulinemic hyperglycemia (D-hyper). D-hypo and D-hyper rats differentiated effects of hypoglycemia and hyperinsulinemia. Adrenal tyrosine hydroxylase (TH) mRNA was reduced (P < 0.05 vs. N) 25% in all diabetic groups. Remarkably, mRNA for phenylethanolamine N-methyltransferase (PNMT), which converts norepinephrine to epinephrine, was reduced (P < 0.05 vs. all) 40% only in D-hypo rats. Paradoxically, dopamine beta-hydroxylase mRNA was elevated (P < 0.05 vs. D, D-hyper) in D-hypo rats. Hippocampal mineralocorticoid receptor (MR) mRNA was increased (P < 0.05 vs. N) in all diabetic groups. Hippocampal glucocorticoid receptor (GR), hypothalamic paraventricular nucleus (PVN) GR and corticotropin-releasing hormone (CRH), and pituitary GR and proopiomelanocortin (POMC) mRNA levels did not differ. We conclude that blunted corticosterone responses to hypoglycemia in diabetic rats are not due to altered basal expression of GR, CRH, and POMC in the hippocampus, PVN, and pituitary. The corticosterone defect also does not appear to be due to increased hippocampal MR, since we have reported normalized corticosterone responses in D-hypo and D-hyper rats. Furthermore, impaired epinephrine counterregulation in diabetes is associated with reduced adrenal TH mRNA, whereas the additional epinephrine defect after recurrent hypoglycemia is associated with decreases in both TH and PNMT mRNA.
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PMID:Effects of diabetes and recurrent hypoglycemia on the regulation of the sympathoadrenal system and hypothalamo-pituitary-adrenal axis. 1549 9

We have compared PC12 cell lines derived from different laboratories and the newly developed mouse pheochromocytoma (MPC) cell line. Morphologically, there were distinct differences in size, shape, adherence, and clumping behavior, which varied in response to different culture media, growth substrates, and nerve growth factor. Quantitative messenger ribonucleic acid (mRNA) analysis showed significant variability in the expression of the catecholaminergic biosynthetic enzymes tyrosine hydroxylase (TH), phenylethanolamine N-methyltransferase (PNMT), the noradrenaline transporter (NAT), and neuron-specific enolase (NSE) between all lines examined. Of most significance were the increased levels of PNMT mRNA in the MPC cells, which were to 15-fold greater than in the PC12 cell lines grown under the same conditions in Dulbecco modified Eagle medium (P < or = 0.05). Growth of MPC cells in Roswell Park Memorial Institute media induced a further significant increase in PNMT gene expression (P < or = 0.05). Immunohistochemistry for TH, PNMT, and NAT was generally consistent with mRNA analysis, with the MPC cells demonstrating strong immunoreactivity for PNMT. The MPC cells showed the highest levels of desipramine-sensitive [(3)H] noradrenaline uptake activity (threefold > than PC12 American Type Culture Center line, P < or = 0.05), despite relatively low levels of NAT mRNA. These results indicate that PC12 cell lines should be carefully chosen for optimal utility in the study of chromaffin cell or sympathetic neuron biology and that cell features will be influenced by type of media and substrate chosen. Furthermore, they confirm that the new MPC cell line is likely a useful model for the study of adrenergic mechanisms or studies involving NAT.
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PMID:Comparative studies of PC12 and mouse pheochromocytoma-derived rodent cell lines as models for the study of neuroendocrine systems. 1622 34

Norepinephrine-deficient mice harbor a disruption of the gene for dopamine-beta-hydroxylase (DBH-KO). Corticotropin-releasing hormone knockout mice (CRH-KO) have markedly reduced HPA activity. The aim of the present work was to study how deficiency of DBH and CRH would affect tyrosine hydroxylase (TH), DBH, and phenylethanolamine N-methyltransferase (PNMT) gene expression and protein levels in the adrenal medulla (AM) and stellate ganglia (SG) of control and stressed mice. Both in AM and SG, single immobilization significantly increased TH and DBH mRNA and protein levels both in wild-type (WT) and CRH-KO mice. On the other hand, the stress-triggered increase in PNMT mRNA and protein levels seen in WT mice was absent in CRH-KO mice. DBH-KO mice are more sensitive to stress but survive a single 2 h restraint stress in a tube. The increase in TH mRNA levels induced by restraint stress in WT was not observed in DBH-KO mice. PNMT mRNA and especially PNMT protein levels were significantly elevated in AM of DBH-KO mice. In SG of DBH-KO mice, TH mRNA levels were not affected; however, PNMT gene expression was highly elevated. Thus, disruption of the DBH gene surprisingly blocks the stress-induced elevation of TH mRNA levels in AM but increases PNMT gene expression in both AM and SG. Our data indicate that adrenergic signaling is required for stress-induced increase in TH mRNA and that this signaling restrains stress-induced increase in PNMT mRNA. They also confirm that the HPA system plays a crucial role in the stress-induced regulation of PNMT gene expression.
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PMID:Regulation of gene expression of catecholamine biosynthetic enzymes in dopamine-beta-hydroxylase- and CRH-knockout mice exposed to stress. 1912 Jan 18

Hypertensive TGR(mRen2)27 (TGR) rats represent a strain with genetically upregulated renin-angiotensin-aldosterone system. Simultaneously with development of hypertension, a daily profile in blood pressure (BP) inverts and in mature TGR rats BP is higher during the lighttime (L) than the darktime (D). Physiological mechanisms of inverted BP rhythm generation are not understood. In our study we determined circadian profiles of plasma hormones related to BP control (aldosterone, corticosterone, melatonin, prolactin) in TGR and control Sprague-Dawley (SD) rats over 24 h and expression of genes encoding catecholamine synthesizing enzymes, tyrosine hydroxylase (TH), dopamine-beta-hydroxylase (DBH), and phenylethanolamine-N-methyltransferase (PNMT) in adrenals and stellate ganglia. Plasma levels of corticosterone and aldosterone were higher in TGR than SD rats but acrophases of their rhythms were not changed. Darktime peak of prolactin in TGR rats was decreased in comparison with SD animals and pineal melatonin levels started to rise earlier in TGR than in SD rats. In adrenals we found upregulated expression of TH, DBH, and PNMT mRNA at the beginning of the lighttime in TGR compared to SD rats. Expression of TH and DBH in stellate ganglia was not different in TGR rats in comparison with SD, but PNMT expression was higher during L compared to D in TGR rats. We hypothesize that upregulated adrenal medulla functioning in the morning and disturbed communication between circadian oscillators and mechanisms involved in BP control can explain the reversed BP profile in TGR rats.
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PMID:Endocrine rhythms and expression of selected genes in the brain, stellate ganglia, and adrenals of hypertensive TGR rats. 1912 Jan 23


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