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)

The present study explores the significance of brain dopamine phenotype for individual variation in the neuroendocrine stress response of the rat. For this purpose, we used two Wistar rat lines previously selected for high or low responsiveness of the dopamine system to apomorphine using the gnawing response as the selection criterion. Systemic administration of the drug evoked in apomorphine-susceptible (apo-sus) rats a vigorous gnawing response, whereas apomorphine-unsusceptible (apo-unsus) rats did not gnaw under these conditions. These two rat lines represent individuals displaying extreme differences in gnawing behavior that otherwise coexist in a normal Wistar population. In this study basal and stress-induced hypothalamic-pituitary-adrenal activity and PRL release were measured in chronically cannulated, freely moving rats that endured a conditioned emotional response. Tyrosine hydroxylase messenger RNA (mRNA), corticosteroid receptor mRNA, and in vivo retention of [3H]corticosterone were measured in rat brain sections using in situ hybridization and in vivo autoradiography. The result show that 1) apo-sus rats had a markedly reduced PRL response to stress compared to apo-unsus animals, whereas basal levels were not significantly different. A12 dopaminergic neurons in the arcuate nucleus expressed significantly higher levels of tyrosine hydroxylase mRNA in apo-sus rats, suggesting that the reduced stress-induced PRL release could be due to an increased inhibitory control by dopaminergic neurons; 2) in apo-sus rats, stress resulted in a sustained elevation of ACTH and free corticosterone levels, whereas the total corticosterone levels were not different between the two rat lines; 3) under basal morning conditions, apo-sus rats had significantly higher plasma ACTH, but, in contrast, lower free corticosterone than apo-unsus rats; total plasma corticosterone levels were not different; 4) the basal evening ACTH level was elevated in apo-sus rats; after removal of the adrenals in the morning, this increased ACTH level in apo-sus rats persisted into the afternoon 6 h postadrenalectomy; and 5) hippocampal mineralocorticoid (MR), but not glucocorticoid (GR), receptor capacity for the ligand comparable between the groups; the MR of apo-sus rats displayed an increased retention of [3H]corticosterone in all hippocampal cell fields measured 24 h adrenalectomy; MR and GR mRNA in hippocampus as well as GR mRNA in the paraventricular nucleus were not significantly different in the two rat lines. In conclusion, the data suggest a common genetic background for individual variation in stress responsiveness and dopamine phenotype. High dopamine reactivity is linked to a reduced PRL and an increased ACTH response after stress. These high dopamine responders display a hyporesponsive adrenal cortex and corticosteroid feedback resistance associated with altered brain corticosteroid receptor properties.
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PMID:Divergent prolactin and pituitary-adrenal activity in rats selectively bred for different dopamine responsiveness. 861 1

Two pharmacogenetically selected Wistar rat lines have been used as a model for individual variability in behavioral and neuroendocrine responses. As a selection criterion the behavioral responsiveness for the dopamine agonist apomorphine was used, giving rise to the apomorphine-susceptible (apo-sus) and apomorphine-unsusceptible (apo-unsus) rat lines. This selection has been maintained over 16 generations. Recent studies have shown that adult rats of these selection lines also show pronounced differences in responsiveness of the hypothalamic-pituitary-adrenal (HPA) system. In this study we analyzed to what extent the divergence in dopamine phenotype and HPA responsiveness, as observed in adult rats, are linked to possible differences, within both systems, during early postnatal development. Therefore, we measured in neonatal female rats of 10 and 18 days of age several parameters of the dopamine and HPA system which show significant differences in adult rats. These include tyrosine hydroxylase (TH) and dopamine D1 and D2 receptor mRNA levels, which were determined within the nigrostriatal system since this system shows the most pronounced differences between adult rats of both selection lines. As indices of HPA activity we measured CRH mRNA, ACTH and total and free corticosterone plasma concentrations under basal conditions in the morning. Transcripts of the two types of corticosteroid receptors, mineralocorticoid (MR) and glucocorticoid (GR) receptor were measured in hippocampus and paraventricular nucleus. In 10-day-old rats all dopamine and HPA parameters were similar in rats of the two selection lines, except for GR mRNA in the parvocellular neurons of the paraventricular nucleus of the hypothalamus (PVN) of apo-sus rats, which was significantly higher than in apo-unsus rats. Eighteen-day-old apo-sus rats, however, showed significantly higher ACTH, comparable total corticosterone and a trend towards lower free corticosterone plasma levels. This HPA profile resembles the situation in adult apo-sus rats as compared with adult apo-unsus rats. Hippocampal GR mRNA expression and thymus weight were also higher in apo-sus rats. In addition, these rats showed an age-related increase in hippocampal MR mRNA expression, while in apo-unsus rats MR mRNA levels did not change between pnd 10 and 18. The measures of the nigrostriatal dopamine system at day 18 were still similar in rats of both lines. In conclusion, divergence in the dopamine systems of the two pharmacogenetically selected rat lines emerges subsequent to divergence in pituitary-adrenal activity.
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PMID:Development of divergence in dopamine responsiveness in genetically selected rat lines is preceded by changes in pituitary-adrenal activity. 873 23

Dwarf tyrosine hydroxylase-human GH (TH-hGH) transgenic mice carrying the hGH reporter gene targeted by the TH promoter express hGH in those regions of the hypothalamus responsible for regulation of pituitary GH secretion. Central expression of the hGH gene decreases GH-releasing hormone (GHRH) and increases somatostatin, which ultimately impacts on pituitary function by reducing the overall amount of GH produced. In the present study, we sought to determine if the reduction of pituitary GH in TH-hGH mice could be attributed to a decrease in somatotrope cell numbers and/or an impairment of somatotrope function. Pituitaries from TH-hGH or wild-type (WT) male and female mice were enzymatically dispersed, counted, and immunostained for GH, PRL, TSH, and ACTH. The total number of pituitary cells recovered from TH-hGH pituitaries was approximately one-half of that from WT controls. However, the proportion of cells that stained for GH and PRL were virtually identical (males, GH-TH-hGH, 58.1 +/- 1.0% [mean +/- SEM] vs. WT, 60.7 +/- 1.0%; PRL-TH-hGH, 43.4 +/- 2.2% vs. WT, 43.1 +/- 0.7%; females, GH-TH-hGH, 47.9 +/- 2.3% vs. WT, 41.5 +/- 3.5%; PRL-TH-hGH, 43.3 +/- 3.2% vs. WT, 47.1 +/- 3.3%). In contrast, percentages of both TSH- and ACTH-containing cells were increased in TH-hGH pituitaries relative to controls (males, TSH-TH-hGH, 15.1 +/- 2.3% vs. WT, 9.6 +/- 1.5%; ACTH-TH-hGH, 24.5 +/- 2.5% vs. WT, 10.9 +/- 0.9%; females: TSH-TH-hGH, 11.3 +/- 0.7% vs. WT, 7.5 +/- 0.6%; ACTH-TH-hGH, 19.8 +/- 1.6% vs. WT, 9.3 +/- 0.8%; P < 0.05). Calculation of the absolute number of each cell type per pituitary demonstrated TH-hGH mice to have about one-half the number of GH and PRL cells, whereas TSH and ACTH cell populations were comparable with that of their WT counterparts. Immunocytochemical localization of GH cells within pituitary sections from TH-hGH mice revealed that somatotropes were confined primarily to the lateral wings of the adenohypophysis, in contrast to the heterogeneous distribution of GH-immunostained cells in WT pituitaries. To assess the functional capacity of the somatotrope populations, pituitary cells from TH-hGH and WT mice were challenged with mouse GHRH (0.01-10 nM). The quantity of GH released (as assessed by both RIA and reverse hemolytic plaque assay) under basal and stimulated conditions did not differ among TH-hGH and WT pituitary cell cultures. Similarly, GHRH induced intracellular cAMP levels were comparable. These results indicate that proliferation of pituitary somatotropes and lactotropes is much more sensitive to changes in GHRH input than is the capability of developing regulated GH secretory function.
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PMID:The tyrosine hydroxylase-human growth hormone (GH) transgenic mouse as a model of hypothalamic GH deficiency: growth retardation is the result of a selective reduction in somatotrope numbers despite normal somatotrope function. 889 26

During lactation, the regulation of the activity of the hypothalamic-pituitary-adrenal (HPA) axis is modified in that tonically elevated glucocorticoid secretion is observed together with blunted ACTH secretion following exposure to various stressors. Although decreased CRF mRNA levels have been reported in neurons of the paraventricular nucleus (PVN) which control ACTH secretion, the mechanisms underlying stress hyporesponsiveness during lactation are still largely unknown. In addition, lactation is associated with inhibition of reproductive functions and the involvement of the PVN neurons in this inhibition is unclear. In these studies, we tested the hypothesis that the effects of stimulatory noradrenergic afferents to the hypothalamic PVN are decreased during lactation, maintaining stress hyporesponsiveness. We also determined whether PVN noradrenergic afferents could modulate suckling-induced luteinizing hormone (LH) suppression. Virgin and lactating females, on day 2 of lactation, received either sham (SHAM) or 6-hydroxydopamine (6OH-DA) lesions over the PVN. Suppression of plasma LH secretion following a suckling test was determined on day 9 in ovariectomized females and plasma ACTH and corticosterone (B) responses to swim stress were determined on day 11 of lactation. In virgin females, 6OH-DA lesion caused a significant reduction in the ACTH and B responses to swim stress. In SHAM lactating females, plasma ACTH response to stress was blunted compared to SHAM virgins, but 6-OHDA lesion did not reduce ACTH levels further. Lesions in lactating females reduced basal LH secretion, although not significantly, but suckling did not further inhibit LH secretion as observed in SHAM lactating females. In all lesioned groups, PVN tyrosine hydroxylase (TH) immunoreactivity was reduced compared to SHAM rats. These results suggest that brainstem (nor)adrenergic inputs to the PVN act to facilitate ACTH stress response in virgin rats, while in lactating rats this facilitation is absent. In addition, (nor)adrenergic cells projecting to the PVN might also participate in the modulation of GnRH and LH secretion during suckling.
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PMID:Noradrenergic facilitation of the adrenocorticotropin response to stress is absent during lactation in the rat. 893 Mar 52

Sympathetic ganglia are the major contributors to the stress-elicited rise in circulating norepinephrine, enkephalins, and neuropeptide Y. Here we examined the effect of immobilization stress and treatment with ACTH and glucocorticoids on messenger RNA (mRNA) levels for tyrosine hydroxylase (TH), dopamine beta-hydroxylase (DBH), preproneuropeptide Y (pre-NPY), and proenkephalin in rat superior cervical ganglia (SCG) and in stellate ganglia. Our results show a severalfold increase in the relative abundance of TH and NPY mRNAs in response to a single immobilization. Repeated stress elevated expression of all the genes studied and increased TH immunoreactivity in both ganglia. The effect of stress was more pronounced in SCG. Prolonged cortisol administration failed to alter the mRNA levels of TH, DBH, and NPY in control animals but attenuated the response to stress. In contrast, TH and DBH mRNA levels in the SCG, but not in adrenal medulla, were elevated by ACTH administration, similar to the levels attained after immobilization. The results revealed that the regulation of gene expression in response to immobilization stress in sympathetic neurons differs from the regulation in adrenal medulla. The study implicates hormonal involvement in the stress-induced changes in TH, DBH, NPY, and proenkephalin gene expression in sympathetic ganglia.
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PMID:Immobilization stress elevates gene expression for catecholamine biosynthetic enzymes and some neuropeptides in rat sympathetic ganglia: effects of adrenocorticotropin and glucocorticoids. 894 Mar 89

In this study we investigated the neurochemical identity of the arcuate cells activated following GH-releasing peptide-6 (GHRP-6) injection by comparing, on consecutive sections, the distribution c-fos messenger RNA (mRNA) with that of mRNAs for peptides synthesized in arcuate cells, including neuropeptide Y (NPY), GH-releasing factor (GRF), tyrosine hydroxylase, POMC, and somatostatin. Rats bearing chronically implanted jugular catheters were injected with either 50 micrograms GHRP-6 or vehicle. Thirty minutes later they were terminally anesthetized and perfused with fixative. Paraffin-embedded sections of 7 microns thickness were processed using in situ hybridization for either c-fos mRNA or mRNAs for the neurochemical markers. In GHRP-6-treated rats the mean (+/-SEM) number of cells expressing c-fos mRNA in the arcuate nucleus (23 +/- 2 cells/section per rat; n = 5) was significantly higher than for vehicle-treated controls (2 +/- 1 cells/section per rat; n = 5; P < 0.001, Mann-Whitney U test). Superimposed camera lucida maps indicated that, in GHRP-6-injected rats, neurochemically identifiable cells expressing c-fos mRNA also express NPY mRNA (51 +/- 4%), GRF mRNA (23 +/- 1%) tyrosine hydroxylase mRNA (11 +/- 3%), POMC mRNA (11 +/- 2%), or somatostatin mRNA (4 +/- 1%). Thus, the majority of cells expressing c-fos mRNA following GHRP-6 injection are NPY and GRF-containing cells.
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PMID:Induction of c-fos messenger ribonucleic acid in neuropeptide Y and growth hormone (GH)-releasing factor neurons in the rat arcuate nucleus following systemic injection of the GH secretagogue, GH-releasing peptide-6. 900 14

TT cell line is the best known stabilized cell line derived from the human medullary thyroid carcinoma. The ultrastructural characteristics of these cells include well developed rough endoplasmic reticulum, a prominent Golgi apparatus and a considerable number of secretory granules. Numerous hormones were immunocytochemically demonstrated in TT cells of which calcitonin and calcitonin gene-related peptide (CGRP) are the products of the same gene but an alternative RNA processing. TT cells were found to produce some other hormones as well, namely ACTH, neurotensin, enkephalin, PTHrP, gastrin-releasing peptide (GRP), serotonin but also functional proteins of the chromogranin group, synaptophysin, NSE, calbindin and tyrosine hydroxylase. Some marker proteins have been detected in the cytosol (CEA) and in the cytoskeleton (alpha-tubulin, cytokeratin). The influence of numerous factors on the secretory activity of these cells has been demonstrated so far, including effects of 1,25-dihydroxycholecalciferol, glucocorticoids, sex steroids, cAMP, gastrin-releasing peptide, sodium butyrate, phorbol esters, ionomycin and forskolin. The investigators performed on the TT cell line demonstrate that this is the most reliable model system for the human parafollicular cells developed so far, in comparison to other cell lines derived from the medullary carcinoma of the thyroid.
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PMID:Characterisation of thyroid medullary carcinoma TT cell line. 904 62

Nicotine rapidly and potently stimulates ACTH secretion via a centrally mediated mechanism. The purpose of the current study was to identify the phenotype of nicotine-sensitive neurons in brainstem catecholaminergic regions previously shown to be responsive to nicotine. Immunocytochemical double-labeling was used to detect c-Fos expression in neurons positive for activin, galanin, or neuropeptide Y (NPY), in comparison to those containing tyrosine hydroxylase (TH, catecholaminergic biosynthetic enzyme). These neuropeptides were chosen because (1) each is located in nicotine-sensitive brainstem regions, (2) neurons containing each of these peptides project to the hypothalamic paraventricular nucleus, and (3) each has been shown to affect ACTH secretion. Freely moving, adult, male rats received an intravenous (i.v.) infusion of saline or nicotine (0.045 mg/kg over 30 s or 0.135 mg/kg over 90 s) and were cardiac perfused 60 min thereafter. Nicotine significantly increased c-Fos expression in a dose-dependent manner in the brainstem regions examined. In nucleus tractus solitarius (NTS)-A2 and NTS-C2, both NPY+ and TH+ neurons responded to the lower dose of nicotine, whereas the activin and galanin neurons in these regions were unresponsive to either dose of nicotine. In contrast, the higher dose of nicotine was required to activate NPY+ neurons in the A1 region and both NPY+ and galanin+ neurons in the locus coeruleus; the C1 region was unresponsive to nicotine. Since plasma ACTH is elevated by the low dose of nicotine and only NTS neurons are activated by this dose, NPY projections from the NTS are likely to contribute to nicotine-stimulated ACTH secretion, in addition to the previously described catecholaminergic neurons.
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PMID:Nicotine activates NPY and catecholaminergic neurons in brainstem regions involved in ACTH secretion. 922 46

CRH occurs in the adrenal medulla of rats. We were interested to know whether CRH affects meduallary chromaffin cells in the absence of ACTH. We investigated the morphological changes of the adrenal medulla in Sprague Dawley rats with light and electron microscopy in normal rats, hypophysectomized rats, and hypophysectomized rats following injections of CRH (10 micrograms = 3 nmol for three days). Chromaffin cells were characterized by immunohistochemistry (anti-tyrosine hydroxylase). At light microscopy level chromaffin cells of hypophysectomized rats were reduced in number. On electron microscopy the number of granules and cell organelles were decreased. Following injections of CRH the medulla regained a more compact texture with cell organelles homogenously distributed, but with chromaffin granules still being reduced in number. Immunohistochemistry allowed the identification of chromaffin cells located within the adrenal cortex. In hypophysectomized rats these cells showed fewer signs of alterations compared to cells located within the medulla itself and had recovered better after treatment with CRH. In conclusion, CRH seems to exert a trophic effect on chromaffin cells in the absence of pituitary ACTH. This observation may provide further evidence for a close interaction of the two neuroendocrine stress systems.
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PMID:The effect of corticotropin-releasing hormone (CRH) on the adrenal medulla in hypophysectomized rats. 947 37

In order to study the genetic factors involved in the neuroendocrine responses to stress, we have compared the intensity of the hypothalamic-pituitary-adrenal (HPA) axis and sympathetic nervous system activation following a 60 minute-restraint stress or after a 10 minute-exposure to a novel environment in three rat strains : outbred Wistar, inbred Brown Norway and Fischer 344, and F1 hybrid Brown Norway x Fischer 344 rats. The basal activity of the HPA axis did not differ between the four groups of rats whereas Brown Norway rats had the lowest release of corticosterone following restraint stress. Although differences in plasma adrenocorticotropic hormone failed to reach significance after exposure to a novel environment, the lowest level of corticosterone was found in Brown Norway rats. This lower release of corticosterone in Brown Norway rats has probably an adrenal origin as suggested by the ratios of corticosterone to ACTH levels following exposure to a novel environment: 632 +/- 222, 200 +/- 45, 636 +/- 89, 258 +/- 65 in Wistar, Brown Norway, Fischer 344 and F1 hybrids, respectively. This trait was dominant over the "adrenal responsive" phenotype of the Fischer 344 rat strain. In response to novelty, the lowest levels of prolactin and renin activity were found in plasma of Brown Norway and Wistar rats and the highest in Fischer 344 and F1 hybrid Brown Norway x Fischer 344 rats, the "high response" phenotype of the Fischer 344 strain being dominant. No strain-related difference was found in plasma glucose and either adrenal tyrosine hydroxylase or phenylethanolamine N-methyl transferase activity. Taken together, these data suggest that 1) genetic factors might contribute to the interindividual differences in neuroendocrine responses to stress and 2) subsets of these responses are controlled by specific genetic factors.
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PMID:Comparison of the neuroendocrine responses to stress in outbred, inbred and F1 hybrid rats. 967 42


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