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: UNIPROT:P01189 (beta-endorphin)
21,003 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The hypothalamic-pituitary-thyroid axis is down-regulated during starvation, and falling levels of leptin are a critical signal for this adaptation, acting to suppress preprothyrotropin-releasing hormone (prepro-TRH) mRNA expression in the paraventricular nucleus of the hypothalamus. This study addresses the mechanism for this regulation, using primary cultures of fetal rat hypothalamic neurons as a model system. Leptin dose-dependently stimulated a 10-fold increase in pro-TRH biosynthesis, with a maximum response at 10 nm. TRH release was quantified using immunoprecipitation, followed by isoelectric focusing gel electrophoresis and specific TRH radioimmunoassay. Leptin stimulated TRH release by 7-fold. Immunocytochemistry revealed that a substantial population of cells expressed TRH or leptin receptors and that 8-13% of those expressing leptin receptors coexpressed TRH. Leptin produced a 5-fold induction of luciferase activity in CV-1 cells transfected with a TRH promoter and the long form of the leptin receptor cDNA. Although the above data are consistent with a direct ability of leptin to promote TRH biosynthesis through actions on TRH neurons, addition of alpha-melanocyte-stimulating hormone produced a 3.5-fold increase in TRH biosynthesis and release, whereas neuropeptide Y treatment suppressed pro-TRH biosynthesis approximately 3-fold. Furthermore, the melanocortin-4 receptor antagonist SHU9119 partially inhibited leptin-stimulated TRH release from the neuronal culture. Consequently, our data suggest that leptin regulates the TRH neurons through both direct and indirect pathways.
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PMID:Leptin regulates prothyrotropin-releasing hormone biosynthesis. Evidence for direct and indirect pathways. 1096 95

Leptin may rapidly inhibit food intake by altering the secretion of hypothalamic neuropeptides such as neuropeptide Y (NPY), a stimulator of food intake, and/or corticotropin-releasing hormone (CRH), an inhibitor of food intake. We measured concentrations of NPY and CRH in specific hypothalamic regions [i.e., arcuate nucleus (ARC), paraventricular nucleus (PVN), ventromedial nucleus and dorsomedial nucleus] of 7- to 8-wk-old lean and ob/ob mice at 1 or 3 h after intracerebroventricular leptin administration. No rapid-onset effects of leptin on hypothalamic NPY or CRH concentrations were observed in intact mice. The addition of leptin to hypothalamic preparations from intact mice also did not alter NPY or CRH secretion. Glucocorticoids may oppose leptin actions. Consistent with this, leptin administration to adrenalectomized mice markedly reduced CRH concentrations in the ARC within 3 h after injection. This rapid reduction in CRH concentration in the ARC after leptin administration is more likely due to stimulated CRH release from this region than to decreased synthesis/transport from the PVN because leptin stimulates CRH synthesis in the PVN. Within 20 min after exposure to leptin, NPY secretion from hypothalamic preparations obtained from adrenalectomized mice was lowered by 27% and CRH secretion was elevated by 51%. The current study demonstrates that leptin rapidly influences the secretion of hypothalamic NPY and CRH and that these actions of leptin within the hypothalamus are restrained by the presence of endogenous corticosterone.
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PMID:Leptin rapidly inhibits hypothalamic neuropeptide Y secretion and stimulates corticotropin-releasing hormone secretion in adrenalectomized mice. 1105 26

Leptin mediates neuroendocrine responses to fasting and restores the starvation-induced changes of several hypothalamic neuropeptides. Ciliary neurotrophic factor (CNTF), a cytokine closely related to leptin, reduces food intake and reverses obesity, but its role in restoring the starvation-induced changes of hormones or hypothalamic neuropeptides remains largely unknown. To comparatively assess the roles of CNTF and leptin in reversing the starvation-induced changes of hypothalamic neuropeptides and endocrine function and in inducing expression of hypothalamic inhibitors of leptin and CNTF signaling (suppressor of cytokine signaling 3 [SOCS-3]) and mediators of energy expenditure (cyclo-oxygenase 2 [COX-2]), we studied the effect of CNTF and leptin administered by intraperitoneal injections (1 microg/g twice daily) in C57Bl/6J mice fasted for 48 h. Serum corticosterone levels increased with fasting, and leptin administration partially normalized them, whereas CNTF administration had no effect. Hypothalamic neuropeptide Y (NPY) and agouti-related protein (AgRP) mRNA expression increased and pro-opiomelanocortin (POMC) decreased in response to fasting. Leptin administration decreased NPY and AgRP and increased POMC mRNA levels toward baseline, but CNTF administration in fasted mice had no effect of comparable significance. Both leptin and CNTF administration in fasted mice resulted in an induction of SOCS-3 mRNA expression. CNTF also induced hypothalamic SOCS-2 mRNA expression. Finally, neither leptin nor CNTF administration in mice fasted for 48 h alters hypothalamic COX-2 expression. Our data suggest that only falling leptin levels mediate the starvation-induced alterations in corticosterone levels and expression of hypothalamic neuropeptides, but inhibitors of leptin signaling are induced by both leptin and CNTF. This may be of clinical importance because both agents are now being evaluated for the treatment of obesity in humans.
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PMID:Unlike leptin, ciliary neurotrophic factor does not reverse the starvation-induced changes of serum corticosterone and hypothalamic neuropeptide levels but induces expression of hypothalamic inhibitors of leptin signaling. 1107 56

The role of leptin and its receptor on the regulation of appetite and body fat was summarized. Leptin directly exerts its anorexigenic effects on arcuate nucleus via proopiomelanocortin and neuropeptide Y neurons. The anorexia and sympathetic nerve activation result in the reduction of body fat. But physiological concentrations of leptin could not reduce body fat in obese people, while genetic loss of central leptin effects induces obesity in children. Melanin concentrating hormone, orexin, and corticotropin-releasing hormone may be directly regulated by leptin. Serotonergic neurons may be separate from leptin effects. Phosphorylation of 985- and 1138-tyrosine of long-form leptin receptor activates SHP-2 and STAT3, respectively. Soluble leptin receptor concentrations in serum are negatively correlated with BMI. Clinical usefulness of leptin is now in progress.
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PMID:[Role of leptin and its receptor in the regulation of appetite and body fat]. 1126 87

Leptin inhibits food intake and increase energy expenditure via an interaction with specific leptin receptors located in the hypothalamus. Leptin receptors have been identified in cocaine and amphetamine-regulated transcript(CART), neuropeptide Y(NPY), galanin-containing neurons of the arcuate nucleus, respectively, and in corticotropin-releasing hormone(CRH)-containing neurons of the paraventricular nucleus, suggesting that these peptides are mediators of leptin's action in the hypothalamus. Anabolic pathways such as those including NPY and galanin promote feeding and are inhibited by leptin, whereas catabolic pathways which include CART and CRH have the opposite effect and are stimulated by leptin. In the current review we examine the significant role of the CART, CRH, NPY and galanin in the regulation of energy balance.
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PMID:[The role of anorectic and orexigenic peptides(CART, NPY etc)]. 1126 91

Leptin is the primary signal through which the hypothalamus senses nutritional state and modulates food intake and energy balance. Leptin reduces food intake by upregulating anorexigenic (appetite-reducing) neuropeptides, such as alpha-melanocyte-stimulating hormone, and downregulating orexigenic (appetite-stimulating) factors, primarily neuropeptide Y. Genetic defects in anorexigenic signalling, such as mutations in the melanocortin-4 (ref. 5) or leptin receptors, cause obesity. However, alternative orexigenic pathways maintain food intake in mice deficient in neuropeptide Y. CB1 cannabinoid receptors and the endocannabinoids anandamide and 2-arachidonoyl glycerol are present in the hypothalamus, and marijuana and anandamide stimulate food intake. Here we show that following temporary food restriction, CB1 receptor knockout mice eat less than their wild-type littermates, and the CB1 antagonist SR141716A reduces food intake in wild-type but not knockout mice. Furthermore, defective leptin signalling is associated with elevated hypothalamic, but not cerebellar, levels of endocannabinoids in obese db/db and ob/ob mice and Zucker rats. Acute leptin treatment of normal rats and ob/ob mice reduces anandamide and 2-arachidonoyl glycerol in the hypothalamus. These findings indicate that endocannabinoids in the hypothalamus may tonically activate CB1 receptors to maintain food intake and form part of the neural circuitry regulated by leptin.
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PMID:Leptin-regulated endocannabinoids are involved in maintaining food intake. 1129 28

The present study was conducted to assess the effect of leptin and corticosterone on the expression of corticotropin-releasing hormone (CRH), proopiomelanocortin (POMC) and agouti-related protein (AGRP) in the mouse brain. To this end, a 3 x 3 factorial experiment was designed in which adrenalectomized (ADX) ob/ob mice were treated with leptin and corticosterone. Leptin and corticosterone downregulated CRH expression in the paraventricular hypothalamic nucleus (PVH). Leptin prevented the stimulating effects of ADX on the expression of CRH and the combination of small doses of leptin and corticosterone was as potent as the high dose of corticosterone in suppressing CRH mRNA expression in the PVH. Leptin and corticosterone enhanced the expression of CRH in the central nucleus of amygdala and in the bed nucleus of the stria terminalis. In addition, the present results confirmed the downregulating effects of leptin on the expression of AGRP mRNA in the hypothalamic arcuate nucleus (ARC), and demonstrated that this effect was more apparent in ADX mice treated with corticosterone than in ADX mice not supplemented with corticosterone. Also, leptin and corticosterone had opposite effects on the expression of POMC in the ARC. The opposite effect of leptin and corticosterone on the expression of POMC and AGRP seems consistent with the reported effects that these hormones and peptides have on food intake and thermogenesis, suggesting that the modulation of POMC and AGRP expression can be a mechanism whereby leptin and corticosterone exert their effects in the regulation of energy balance. In contrast, the similarity in the action of leptin and corticosterone is not a priori consistent with a role of CRH in the effects of these hormones in the regulation of energy balance. The downregulating effect of leptin on the expression of CRH in the PVH strongly suggests that leptin can be a potent regulator of hypothalamic-pituitary-adrenal axis activity. Finally, the present results suggest that the effects of leptin on the expression of CRH, POMC and AGRP are not curbed by glucocorticoids.
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PMID:Effects of leptin and corticosterone on the expression of corticotropin-releasing hormone, agouti-related protein, and proopiomelanocortin in the brain of ob/ob mouse. 1134 Mar 36

Energy balance and insulin action are tightly coregulated. Leptin regulates energy intake and expenditure partly by modulation of the melanocortin pathway in the hypothalamus. Here we demonstrate potent effects of the melanocortin pathway on insulin action and body distribution of adiposity. Conscious rats received week-long infusions of either a melanocortin receptor agonist, alpha-melanocyte-stimulating hormone (alpha-MSH), or antagonist, SHU9119, in the third cerebral ventricle while food intake was maintained constant in each group. alpha-MSH decreased intra-abdominal fat and markedly enhanced the actions of insulin on both glucose uptake and production, while SHU9119 exerted opposite effects. Our findings elucidate a neuroendocrine network that is likely to play a central role in the coupling of energy intake and insulin action.
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PMID:Central melanocortin receptors regulate insulin action. 1158 Dec 96

Leptin and its principal mediators, NPY and alpha-MSH are postulated to play a pivotal role in energy balance. To determine the possibility of the disturbance in neuropeptides in human obesity and their consequent changes in response to negative energy balance, we evaluated plasma and cerebrospinal fluid (CSF) leptin, NPY, and alpha-MSH levels in obese women before and after weight loss in comparison with normal control women. Subjects included 16 obese women [mean body mass index (BMI), 35.6 kg/m(2)] before and after weight loss induced by a 2-wk very low caloric diet (800 kcal/d) and 14 normal weight women (mean BMI, 20.4 kg/m(2)). The CSF to plasma leptin ratio in normal weight subjects was 2.3-fold higher than that in obese subjects. After weight loss in obese subjects, plasma leptin levels decreased by 40% and CSF levels decreased by 51%. There was a positive linear correlation between CSF and plasma leptin levels at baseline in obese subjects (r = 0.74, P < 0.05) and a positive logarithmic correlation in normal weight subjects (r = 0.89, P < 0.05) and in obese subjects after weight loss (r = 0.64, P < 0.05). The BMI was negatively correlated with the CSF to plasma leptin ratio (r = -0.86, P < 0.05) in all subjects. Neither the baseline plasma levels nor the baseline CSF levels of NPY were different between normal weight subjects and obese subjects. After weight loss, the CSF NPY level decreased significantly compared with baseline values in obese subjects. The alpha-MSH levels in plasma and CSF did not differ significantly from controls in obese subjects at baseline or after weight loss. Baseline CSF leptin level correlated with neither the baseline CSF NPY level nor the baseline CSF alpha-MSH level. In conclusion, this study demonstrated that the efficiency of brain leptin delivery is reduced in human obesity and central nervous system leptin uptake involves a combination of a saturable and an unsaturable mechanism. CSF NPY and alpha-MSH did not differ from controls in human obesity, and the CSF NPY level decreased significantly whereas alpha-MSH did not differ after weight loss in obese subjects compared with baseline. There was no significant correlation between CSF leptin and CSF NPY or alpha-MSH. This could be the result of leptin resistance present in human obesity and/or the more complex mechanisms involved in modulating appetite and regulating energy balance in human obesity.
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PMID:Cerebrospinal fluid and plasma concentrations of leptin, NPY, and alpha-MSH in obese women and their relationship to negative energy balance. 1160 May 52

Leptin, a hormone secreted from the adipose tissue, is involved in the regulation of food intake and neuroendocrine function, by modulation of the expression and/or function of various neuropeptides in the hypothalamus. The long isoform (OB-Rb) is the major signaling form of the leptin receptor in the hypothalamus. We have used double-labeling immunohistochemistry to examine the extent of OB-Rb expression in neurochemically defined cell types in the ovine hypothalamus. OB-Rb-like immunoreactivity was widespread within cells localized to the periventricular, paraventricular, supraoptic, dorsomedial hypothalamic, ventromedial hypothalamic and arcuate nuclei, as well as the median eminence, perifornical, anterior hypothalamic and lateral hypothalamic areas and the zona incerta. Double-labeling showed expression of OB-Rb in 59.6+/-6.0% neuropeptide Y-containing cells, 60.8+/-4.7% galanin-containing cells, 89.8+/-2.65% pro-opiomelanocortin-containing cells, 73.4+/-3.5% tyrosine hydroxylase-containing cells and 31.8+/-2.8% corticotropin-releasing factor-containing cells. Interestingly 100% of melanin-concentrating hormone and orexin positive cells were also OB-Rb immunoreactive. These data provide semi-quantitative information on the extent to which various cell types express OB-Rb in the hypothalamus. Expression of OB-Rb within specific neuropeptidergic neurons provides evidence for the direct action of leptin upon the various neurochemical systems that regulate food intake, neuroendocrine and autonomic function in the brain.
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PMID:Immunohistochemical characterization of localization of long-form leptin receptor (OB-Rb) in neurochemically defined cells in the ovine hypothalamus. 1171 11


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