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: UMLS:C0038187 (starvation)
24,951 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Total starvation in the rat for 2 days did not alter the hypothalamic content of thyrotropin-releasing hormone (TRH), but did decrease both pituitary TSH content and serum TSH concentration. Five days starvation resulted in a significant decrease in serum TSH and a slightly enhanced serum TSH response to exogenous TRH, suggesting that the pituitary retains its sensitivity to TRH. Fasting for 5 days resulted in a decreased 1 and 4th, but an increased 24th thyroid 131I uptake. Other starvation-induced abnormalities of intrathyroid 131I metabolism were a consistent increase in the percent of organified 131I present as MIT and DIT and a decreased percent 131I labeled T4 AND T3. These alterations in the intrathyroid metabolism of 131I in the starved rat probably reflect both a decrease in serum TSH concentration and a decrease in urinary and fecal loss of administered 131I. The serum total and free T4 and total and free T3 concentrations were decreased following 2 and 5 days of starvation.
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PMID:Effect of starvation on hypothalamic-pituitary-thyroid function in the rat. 9 84

The relationship between food intake and thyroid function has been investigated in immature domestic fowl. Starvation delayed, but did not suppress, the triiodothyronine (T3) response to intravenously administered thyrotropin-releasing hormone (10 micrograms/kg). This probably resulted from a suppression of monodeiodinase activity, since the conversion of thyroxine (T4) to T3 in thyroidectomised birds following an intramuscular injection of T4 (10 micrograms/kg) was markedly reduced by starvation. Starvation, for 24 or 48 hr, lowered the circulating T3 level but increased the T4 concentration. When fasted birds were refed the T4 concentration was initially enhanced but subsequently declined as the T3 concentration progressively increased. The accompanying decline in the T4:T3 ratio in fasted-refed birds indicated that the rise in the T3 level resulted from the peripheral monodeiodination of T4. The increase in T3 concentration could be induced solely by carbohydrate; the intraperitoneal administration of glucose (2.0 g/kg) to fasted birds resulting in a slight, transient rise in the T3 concentration and a fall in the T4:T3 ratio. The generation of T3 was also energy dependent, in that the magnitude of the T3 response of fasted birds to refeeding was proportional to the amount of food consumed and to the metabolisable energy (ME) content of the diet. Moreover, when exogenous T4 (100 micrograms/kg) was intramuscularly administered to thyroidectomised birds fed a diet with a high ME content, the conversion of T4 to T4 was greater than that in birds fed a diet of lower ME content. These results demonstrate that nutritional stimuli are involved in the regulation of thyroid function in birds, particularly in the peripheral generation of T3.
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PMID:Food intake regulation of circulating thyroid hormones in domestic fowl. 393 26

Endogenous opioid peptides appear to play a role in the initiation of feeding. Butorphanol, an exogenous opiate which preferentially generalizes to the kappa-sigma opiate receptors, is a potent initiator of feeding. In these studies, we examined the effect of peripherally administered putative satiety substances, cholecystokininoctapeptide, somatostatin, bombesin, gastrin-releasing peptide, thyrotropin-releasing hormone, calcitonin and glucagon on butorphanol induced feeding. With the exception of bombesin, all the other putative satiety factors required 2 to 32 times as high a dose to significantly suppress feeding following butorphanol compared to the dosages required to suppress starvation or tail pinch induced feeding. Bombesin appeared to be approximately equipotent in all systems tested. Haloperidol and atropine both suppressed butorphanol induced feeding supporting our previous hypothesis of an integral relationship between acetylcholinergic-dopaminergic and opioid mechanisms in the initiation of feeding. The findings reported here are compatible with an important role for opioid mechanisms in the initiation of feeding.
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PMID:The effect of peripherally administered satiety substances on feeding induced by butorphanol tartrate. 631 70

Mild tail pinch (TP) in rats resulted in 72% of animals displaying ingestive behavior with 20% demonstrating gnawing behavior without food ingestion and 8% demonstrating licking behavior only. The animals ate steadily over 5 min with a maximum rate occurring at 1 min (0.5 +/- 0.2 g). There was a circadian rhythm of TP-induced behavior with the peak food ingestion occurring at 24 h. A mild increase in blood glucose occurred 120 s after commencement of TP (115 +/- 4 mg/dl). Common satiety signals such as stomach distension and glucose decreased food ingestion. Parenteral administration of glucagon, cholecystokinin-octapeptide, bombesin, and thyrotropin-releasing hormone resulted in suppression of TP-induced food ingestion. Chronic TP (12 5-min TP periods/day) resulted in a fall in spontaneous food intake with the total intake remaining similar to food intake prior to the chronic TP period. We suggest that TP serves as an excellent model for eating behavior because 1) it correlates well with starvation-induced eating; 2) it precludes the necessary deprivation of food and water to adrenalectomized animals; and 3) animals subjected to TP continue chewing in the face of decreased food intake allowing one to exclude the possibility that the effects of an anorectic are secondary to nausea.
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PMID:Stress-induced eating in rats. 719 55

In the rat, 48 h of food deprivation significantly reduces hypothalamic paraventricular nucleus (PVN) thyrotropin-releasing hormone (TRH) gene expression, anterior pituitary thyrotropin (TSH) gene expression and circulating triiodothyronine (T3). Using in situ hybridization histochemistry, we have now assessed the effect of selective nutritional deprivation, by comparing protein-free and protein and fat-free diets with a normal diet matched for total energy content. As previously demonstrated, fasting markedly reduced PVN TRH transcripts, pituitary TSB beta transcripts, circulating T3 and body weight. Compared to rats fed a control diet, rats fed a protein-free or a protein and fat-free diet of similar energy content showed a highly significant decrease in PVN TRH transcripts, pituitary TSB beta transcripts and circulating T3 levels. The exclusion of fat from the protein-free diet did not produce any further decline in the parameters measured. This indicates that variations in the protein composition alone of the diet are sufficient to reduce hypothalamic TRH mRNA, pituitary TSB beta mRNA and plasma T3, and are the predominant factors in the TRH response to starvation.
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PMID:The effect of dietary protein on thyrotropin-releasing hormone and thyrotropin gene expression. 846 89

We have investigated the effects of food deprivation on nitric oxide synthase (NOS) transcript levels in the rat paraventricular (PVN) and supraoptic nuclei (SON), using in situ hybridization histochemistry. Food deprivation for 48 h significantly and consistently reduced NOS transcript prevalence by approximately 50% in both sites. Since there is considerable evidence for an important role of 5-HT in feeding behaviour, we then examined the effect of food deprivation on NOS gene expression in the PVN following para-chlorophenylalanine (PCPA)-induced hypothalamic 5-HT depletion. As starvation causes central down-regulation of the thyroid axis, changes in thyrotropin-releasing hormone (TRH) and pituitary thyrotrophin (TSH) transcript prevalence were used as internal controls. PCPA pretreatment (200 mg/kg body weight as a single daily dose ip for 2 days) had no significant effect on basal levels of NOS, TRH or TSH transcripts, or on the effect of a subsequent 48 h fast, which significantly reduced all three. These results show for the first time, that food deprivation for 48 h significantly reduces NOS gene expression in the rat PVN and SON. Secondly, that basal levels and the fasting-induced reductions in the prevalence of NOS, TRH and TSH transcripts were not affected by PCPA-induced hypothalamic 5-HT depletion. Therefore, at least under the experimental conditions used here, 5-HT does not appear to be involved in setting baseline levels- or in the starvation-induced inhibition of NOS or thyroid axis gene expression in the PVN.
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PMID:Inhibition of hypothalamic nitric oxide synthase gene expression in the rat paraventricular nucleus by food deprivation is independent of serotonin depletion. 874 23

Starvation causes a rapid reduction in thyroid hormone levels in rodents. This adaptive response is caused by a reduction in thyrotropin-releasing hormone (TRH) expression that can be reversed by the administration of leptin. Here we examined hypothalamic signaling pathways engaged by leptin to upregulate TRH gene expression. As assessed by leptin-induced expression of suppressor of cytokine signaling-3 (SOCS-3) in fasted rats, TRH neurons in the paraventricular nucleus are activated directly by leptin. To a greater degree, they also contain melanocortin-4 receptors (MC4Rs), implying that leptin can act directly or indirectly by increasing the production of the MC4R ligand, alpha-melanocyte stimulating hormone (alpha-MSH), to regulate TRH expression. We further demonstrate that both pathways converge on the TRH promoter. The melanocortin system activates the TRH promoter through the phosphorylation and DNA binding of the cAMP response element binding protein (CREB), and leptin signaling directly regulates the TRH promoter through the phosphorylation of signal transducer and activator of transcription 3 (Stat3). Indeed, a novel Stat-response element in the TRH promoter is necessary for leptin's effect. Thus, the TRH promoter is an ideal target for further characterizing the integration of transcriptional pathways through which leptin acts.
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PMID:Transcriptional regulation of the thyrotropin-releasing hormone gene by leptin and melanocortin signaling. 1113 86

Regulation of energy balance by leptin involves regulation of several neuropeptides, including thyrotropin-releasing hormone (TRH). Synthesized from a larger inactive precursor, its maturation requires proteolytic cleavage by prohormone convertases 1 and 2 (PC1 and PC2). Since this maturation in response to leptin requires prohormone processing, we hypothesized that leptin might regulate hypothalamic PC1 and PC2 expression, ultimately leading to coordinated processing of prohormones into mature peptides. Using hypothalamic neurons, we found that leptin stimulated PC1 and PC2 mRNA and protein expression and also increased PC1 and PC2 promoter activities in transfected 293T cells. Starvation of rats, leading to low serum leptin levels, decreased PC1 and PC2 gene and protein expression in the paraventricular nucleus (PVN) of the hypothalamus. Exogenous administration of leptin to fasted animals restored PC1 levels in the median eminence (ME) and the PVN to approximately the level found in fed control animals. Consistent with this regulation of PCs in the PVN, concentrations of TRH in the PVN and ME were substantially reduced in the fasted animals relative to the fed animals, and leptin reversed this decrease. Further analysis showed that proteolytic cleavage of pro-thyrotropin-releasing hormone (proTRH) at known PC cleavage sites was reduced by fasting and increased in animals given leptin. Combined, these findings suggest that leptin-dependent stimulation of hypothalamic TRH expression involves both activation of trh transcription and stimulation of PC1 and PC2 expression, which lead to enhanced processing of proTRH into mature TRH.
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PMID:Regulation of hypothalamic prohormone convertases 1 and 2 and effects on processing of prothyrotropin-releasing hormone. 1528 2

Regulation of the hypothalamic-pituitary-thyroid (HPT) axis is dependent upon the secretion of thyrotropin-releasing hormone (TRH), a tripeptide originating in the hypothalamic paraventricular nucleus (PVN). These so-called hypophysiotropic neurons are under feedback inhibition by circulating levels of thyroid hormone, mediated through interactions with the beta2 thyroid hormone receptor (TRbeta2) and competition with the phosphorylated form of cyclic adenosine 5'-monophosphate response element binding protein (CREB) for a multifunctional binding site in the TRH gene. The non-thyroidal illness syndrome, characterized by low circulating thyroid hormone levels yet suppression of TRH gene expression in hypophysiotropic neurons, is due to alteration in the regulatory factors that modulate TRH gene expression to result in central hypothyroidism. These factors include alpha melanocyte-stimulating hormone (alphaMSH) and cocaine- and amphetamine-regulated transcript (CART), and agouti-related protein (AGRP) and neuropeptide Y (NPY), substances co-produced by distinct populations of leptin-responsive neurons in the hypothalamic arcuate nucleus. Through monosynaptic projections from arcuate nucleus neurons to hypophysiotropic TRH neurons, these factors contribute to suppression of HPT axis during fasting and starvation by exerting opposing actions on the TRH gene, altering the sensitivity for feedback inhibition by thyroid hormone. In contrast, central hypothyroidism associated with infection may be due to upregulation of type 2 deiodinase activity in tanycytes, specialized glial cells that line the infralateral walls and floor of the third ventricle. Through tanycyte-cerebrospinal fluid, -vascular or -neuronal associations, these cells may lead to inhibition of TRH gene expression in hypophysiotropic neurons by increasing local triiodothyronine production.
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PMID:Feedback regulation of thyrotropin-releasing hormone (TRH): mechanisms for the non-thyroidal illness syndrome. 1548 10

Leptin, a hormone secreted by the adipose tissue, stimulates anorexigenic peptides and also inhibits orexigenic peptides in hypothalamic arcuate nuclei-located neurons. It also counteracts the starvation-induced suppression of thyroid hormones by up-regulating the expression of preproTRH gene. On the other hand, in addition to its role as a modulator of the thyroid-hypothalamic-hypophysial axis, thyrotropin-releasing hormone (TRH) acts as a modulator of the cardiovascular system. In fact, we reported that overexpression of diencephalic TRH (dTRH) induces hypertension. We have recently shown that, in rats with obesity-induced hypertension, hyperleptinemia may produce an increase of dTRH together with an elevation of arterial blood pressure (ABP) through an increase of sympathetic activity and that these alterations were reversed by antisense oligonucleotide and small interfering RNA against preproTRH treatments. Here we explore the possible role of dTRH as a mediator involved in leptin-induced hypertension in 2 obesity mouse models: agouti-yellow mice, which are hyperleptinemic and hypertensive, and ob/ob mice, which lack functional circulating leptin. These 2 models share some characteristics, but ob/ob mice show lower ABP and plasma catecholamines levels. Then, for the first time, we report that there is a clear association between ABP and dTRH levels in both mouse models, as we have found that dTRH content was elevated in agouti-yellow mice and diminished in ob/ob mice compared with their controls. We also show that, after 3 days of subcutaneous leptin injections (10 microg/12 hours), ABP and dTRH increased significantly in ob/ob mice with no alterations of thyroid hormone levels. These results add evidence to the putative molecular mechanisms for the strong association between obesity and hypertension.
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PMID:Association between diencephalic thyroliberin and arterial blood pressure in agouti-yellow and ob/ob mice may be mediated by leptin. 1788 58


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