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Query: UMLS:C0028754 (obesity)
 124,988 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The presence of three regulatory peptides, corticotropin-releasing hormone, neuropeptide Y and endothelin-1, was studied by radioimmunoassay in the tumor tissue of an ACTH-secreting bronchial carcinoid. A 36-year-old female was admitted to hospital because of moon face, central obesity and hypertension. High levels of plasma ACTH and cortisol and urinary 17-OHCS and 17-KS were found. One mg dexamethasone did not suppress plasma ACTH and cortisol levels, but 8 mg did so slightly. Corticotropin-releasing hormone (100 micrograms, iv) stimulated plasma ACTH levels (0 min; 34.8 pmol/l; 30 min; 41.1 pmol/l). The computerized tomography showed the presence of a tumor in the right lung. This lung tumor was removed surgically and has been shown by microscopical examination to be a bronchial carcinoid with ACTH-positive cells. The tumor tissue concentrations of corticotropin-releasing hormone, neuropeptide Y and endothelin-1 were 3.34 pmol/g wet weight, 8.07 pmol/g wet weight and 0.92 pmol/g wet weight, respectively, although plasma concentrations of these three peptides were not elevated. Reverse phase high performance liquid chromatography showed that immunoreactive peptides in the tumor tissue were mainly eluted in the position of the standard peptides. These findings indicate that this case of ACTH-secreting bronchial carcinoid had high levels of corticotropin-releasing hormone, neuropeptide Y and endothelin-1 in its tumor tissue and suggested that these peptides may act locally, in a paracrine or autocrine manner, in the tumor.
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PMID:An ACTH-secreting bronchial carcinoid: presence of corticotropin-releasing hormone, neuropeptide Y and endothelin-1 in the tumor tissue. 838 6

Knowledge of the effects of exercise in the regulation of energy balance is imperative for the assessment of the value (or limit) of exercise as a therapeutic adjunct in the treatment of obesity. This short review addresses the effects of exercise on the neurobiological control of food intake and energy expenditure. It has been proposed that exercise may affect the regulation of energy balance through the stimulation of corticotropin-releasing hormone (CRH) and neuropeptide Y (NPY). It is likely that the CRH and NPY neuropeptidergic systems exert some degree of control on food intake and energy expenditure. The increase in the CRHergic activity induced by moderately intense exercise would potentiate the effects of muscular activity in reducing energy stores by decreasing energy intake and increasing thermogenesis. Reduced food intake and increased thermogenesis are two of the more recognized biological actions of CRH. Exercise would also contribute to the stimulation of brain NPY neurons by reducing energy stores and plasma insulin levels. By producing orexigenic effects and reducing thermogenesis, activation of the NPY system would tend to oppose the physiological effects of CRH and therefore cancel out the effects of exercise on energy loss.
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PMID:Exercise and the neurobiological control of food intake and energy expenditure. 858 Nov

Correction of the obese state induced by genetic leptin deficiency reduces elevated levels of both blood glucose and hypothalamic neuropeptide Y (NPY) mRNA in ob/ob mice. To determine whether these responses are due to a specific action of leptin or to the reversal of the obese state, we investigated the specificity of the effect of systemic leptin administration to ob/ob mice (n = 8) on levels of plasma glucose and insulin and on hypothalamic expression of NPY mRNA. Saline-treated controls were either fed ad libitum (n = 8) or pair-fed to the intake of the leptin-treated group (n = 8) to control for changes of food intake induced by leptin. The specificity of the effect of leptin was further assessed by 1) measuring NPY gene expression in db/db mice (n = 6) that are resistant to leptin, 2) measuring NPY gene expression in brain areas outside the hypothalamus, and 3) measuring the effect of leptin administration on hypothalamic expression of corticotropin-releasing hormone (CRH) mRNA. Five daily intraperitoneal injections of recombinant mouse leptin (150 micrograms) in ob/ob mice lowered food intake by 56% (P < 0.05), body weight by 4.1% (P < 0.05), and levels of NPY mRNA in the hypothalamic arcuate nucleus by 42.3% (P < 0.05) as compared with saline-treated controls. Pair-feeding of ob/ob mice to the intake of leptin-treated animals produced equivalent weight loss, but did not alter expression of NPY mRNA in the arcuate nucleus. Leptin administration was also without effect on food intake, body weight, or NPY mRNA levels in the arcuate nucleus of db/db mice. In ob/ob mice, leptin did not alter NPY mRNA levels in cerebral cortex or hippocampus or the expression of CRH mRNA in the hypothalamic paraventricular nucleus (PVN). Leptin administration to ob/ob mice also markedly reduced serum glucose (8.3 +/- 1.2 vs. 24.5 +/- 3.8 mmol/l; P < 0.01) and insulin levels (7,263 +/- 1,309 vs. 3,150 +/- 780 pmol/l), but was ineffective in db/db mice. Pair-fed mice experienced reductions of glucose and insulin levels that were < 60% of the reduction induced by leptin. The results suggest that in ob/ob mice, systemic administration of leptin inhibits NPY gene overexpression through a specific action in the arcuate nucleus and exerts a hypoglycemic action that is partly independent of its weight-reducing effects. Furthermore, both effects occur before reversal of the obesity syndrome. Defective leptin signaling due to either leptin deficiency (in ob/ob mice) or leptin resistance (in db/db mice) therefore leads directly to hyperglycemia and the overexpression of hypothalamic NPY that is implicated in the pathogenesis of the obesity syndrome.
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PMID:Specificity of leptin action on elevated blood glucose levels and hypothalamic neuropeptide Y gene expression in ob/ob mice. 860 77

Obesity results from an imbalance between nutrient ingestion and metabolism, with more calories being ingested than utilized. The brain plays an important role in coordinating these complex behavioral and physiological functions, operating through multiple neurochemical systems with distinct properties. This review focuses on two hypothalamic peptide systems, neuropeptide Y (NPY) and galanin (GAL), that illustrate how the brain operates through different mechanisms to control the body's nutrient stores, in different states or conditions. These peptides have different behavioral and physiological effects and are, themselves, differentially responsive to feedback signals from circulating steroids, peptides, and nutrients. They can be distinguished by their relation to natural feeding patterns and endogenous hormones and by their specificity of action in relation to natural biological rhythms. The neuroanatomical substrates involved in these actions of NPY and GAL are also distinct. The neurocircuit mediating NPY's actions originates in the arcuate nucleus and terminates in the medial portion of the paraventricular nucleus; the GAL-containing neurons, in contrast, are concentrated in the lateral portion of the paraventricular nucleus, in addition to the medial preoptic area, which contribute to local GAL innervation as well as projections to the median eminence. Regarding their distinct functions, the evidence suggests that the NPY system is more closely related to patterns of carbohydrate ingestion and carbohydrate utilization, channeling nutrients towards the synthesis of fat. It is most strongly activated at the start of the active feeding cycle or after weaning, in close association with the adrenal steroid, corticosterone. The GAL system, in contrast, is more closely associated with patterns of fat consumption and signals related to fat oxidation. This peptide system is most active during the middle of the feeding cycle or immediately after puberty, in close association with the gonadal steroids. The gene expression and synthesis of these peptides in their respective neuronal cell groups is inhibited by circulating insulin and altered by dietary nutrients. Disturbances in sensitivity to insulin and steroid feedback regulation in the brain are believed to be involved in producing abnormal patterns of peptide function that result in overeating and body weight gain.
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PMID:Brain peptides and obesity: pharmacologic treatment. 869 61

Evidence suggests that serotonin and neuropeptide Y neurons in the hypothalamus, which respectively inhibit and stimulate food intake, may interact to control energy homoeostasis. We therefore investigated the effects of fluoxetine, which inhibits serotonin reuptake, on food intake and the activity of the neuropeptide Yergic arcuato-paraventricular projection in lean Wistar and Zucker rats. We also studied its effects in obese Zucker rats, in which obesity is postulated to be due to overactivity of the arcuato-paraventricular projection. Fluoxetine significantly reduced food intake in lean and obese rats, both during continuous subcutaneous infusion and (10 mg/kg/day for seven days) and acutely after a single injection (10 mg/kg). Fluoxetine also significantly reduced neuropeptide Y levels in the paraventricular nucleus, a major site of neuropeptide Y release which is highly sensitive to the appetite-stimulating actions of neuropeptide Y. Push-pull sampling in lean and fatty Zucker rats showed that neuropeptide Y secretion in the paraventricular nucleus was significantly reduced after acute fluoxetine treatment. Furthermore, seven days fluoxetine treatment prevented the significant increases in hypothalamic neuropeptide Y messenger RNA which were induced in lean rats by food restriction which precisely matched the hypophagia induced by the drug. We conclude that fluoxetine inhibits various aspects of the activity of the neuropeptide Yergic arcuato-paraventricular neurons, and suggest that reduced neuropeptide Y release in the paraventricular nucleus may mediate, at least in part, the drug's hypophagic action. We further suggest that serotonin may influence food intake and energy balance by inhibiting the arcuato-paraventricular projection, and that the two neurotransmitters may act together to regulate feeding and energy homoeostasis.
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PMID:The serotonergic agent fluoxetine reduces neuropeptide Y levels and neuropeptide Y secretion in the hypothalamus of lean and obese rats. 873 24

We have attempted to provide a progress report on current research on the role of catecholamines and serotonin receptor subtypes in feeding control. Recent evidence suggests that only some of the several catecholamine receptor subtypes are specifically involved in feeding control. They include the beta 1/2-adrenoceptors, the alpha 1-adrenoceptors and the D1 dopamine receptors: stimulation of these receptors reduces feeding in rats. Stimulation of serotonergic 5-HT1B and 5-HT2C receptors reduces feeding and perhaps enhances the satiating effect of food. Recently, an interesting reciprocal relation between serotonin and cholecystokinin has been discovered in relation to feeding control. The serotonergic 5-HT2A receptors are involved in stress-induced anorexia and regulate the hyperphagia induced by neuropeptide Y in the nucleus paraventricularis of the hypothalamus. Both effects may involve changes in the secretion of corticotropin-releasing factor. These findings may help elaborate neuronal models of feeding control and perhaps facilitate progress in the pharmacotherapy of human obesity and eating disorders.
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PMID:Pharmacology of ingestive behaviour. 876 44

Elevated hypothalamic neuropeptide Y (NPY) expression is found in several rodent genetic models of obesity, but any association in nongenetic models of obesity is unclear. Consequently, we have measured NPY mRNA levels in the ventromedial hypothalamus of a well-characterized model of obesity, the gold thioglucose (GTG)-injected mouse. Fourteen days after injection (early stage), animals were hyperphagic but not obese, hyperglycemic, or overtly hyperinsulinemic. Ten weeks after treatment (late stage), animals were obese, markedly hyperinsulinemic, and hyperglycemic. In both the early and late stages, NPY mRNA levels were reduced in the arcuate nucleus of GTG-injected animals. Although overnight fasting doubled NPY mRNA levels in control animals, there was no change at either stage in GTG-injected animals. NPY mRNA levels in the deep layers of the cerebral cortex and in the dentate gyrus were not affected by GTG treatment or overnight fasting. We conclude that GTG treatment reduces the expression of NPY mRNA in the arcuate nucleus and that, therefore, increased hypothalamic NPY expression is unlikely to be an important factor causing the obesity and other metabolic changes found in this model.
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PMID:Effects of gold thioglucose on neuropeptide Y messenger RNA levels in the mouse hypothalamus. 876 84

The effect of different doses of leptin, given as an intracerebroventricular (ICV) bolus, on body weight gain and food intake was investigated during refeeding, following a 24-h fast in lean (FA/fa) rats. It was observed that ICV leptin resulted in a dose-dependent decrease in body weight gain, compared with vehicle injection, a difference that persisted for at least 6 days. This was associated with a transient reduction in food intake over the first 2 days after leptin injection. More importantly, the effect of leptin was also observed in genetically obese fa/fa rats but at the expense of two to ten times higher leptin concentrations, indicating the presence of decreased leptin sensitivity. Furthermore, ICV leptin injections were able to decrease neuropeptide Y (NPY) levels in the arcuate and paraventricular hypothalamic nuclei in both lean and genetically obese fa/fa rats, although a higher leptin dose was again needed in the obese group. These observations provide further evidence for the implication of NPY and leptin in a regulatory loop controlling body homeostasis. This loop is functional in lean and genetically obese fa/fa rats, provided that leptin levels in the central nervous system are high enough in the obese group, in particular. Since human obesity is frequently associated with elevated circulating leptin levels, a state of decreased leptin sensitivity (i.e., leptin resistance), similar to that described here in fa/fa rats, could possibly occur in human syndromes as well.
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PMID:The weight-reducing effect of an intracerebroventricular bolus injection of leptin in genetically obese fa/fa rats. Reduced sensitivity compared with lean animals. 882 85

Neurons containing serotonin (5-HT), a potent anorexic agent, come into contact with neuropeptide Y-ergic neurons, that project from the arcuate nucleus (ARC) to the paraventricular nucleus (PVN). NPY powerfully stimulates feeding and induces obesity when injected repeatedly into PVN. We hypothesize that 5-HT tonically inhibits the ARC-PVN neurons and that balance between the two systems determines feeding and energy homeostasis. This study aimed to determine whether central injection of the 5-HT synthesis inhibitor p-chlorophenylalanine (pCPA), which increases feeding, increased hypothalamic NPY and NPY mRNA levels. pCPA (10 mg/kg in 3 microliters) was administered into the third ventricle either as a single injection (n = 8) or daily for 7 days (n = 8). Control rats received a similar injection of saline. pCPA significantly increased food intake compared with controls after both single and repeated injections (P < 0.05). NPY levels were measured by radioimmunoassay in microdissected hypothalamic extracts. NPY levels in the acutely treated group were significantly increased in the paraventricular nucleus (PVN; by 41%, P = 0.01), anterior hypothalamic area (AHA; by 34%, P < 0.01) and lateral hypothalamic area (LHA; by 41%, P < 0.02). In the 7-day-treated group, NPY levels were also increased in the same areas, i.e. PVN (by 24%, P < 0.01), AHA (by 30%, P < 0.01) and LHA (by 38%, P = 0.01). There were no significant changes in the ARC or any other region or in hypothalamic NPY mRNA levels. pCPA administration increased NPY levels in several regions notably the PVN. This is a major site of NPY release, where NPY injection induces feeding. We suggest that the hyperphagia induced by pCPA is mediated by increased NPY levels and secretion in the PVN. This is further evidence for interactions between NPY and 5-HT in the control of energy homeostasis.
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PMID:Increased feeding and neuropeptide Y (NPY) but not NPY mRNA levels in the hypothalamus of the rat following central administration of the serotonin synthesis inhibitor p-chlorophenylalanine. 882 73

Tumor-bearing rats exhibited significant decreases in 1- to 4-h intake of rat chow following the intrahypothalamic injection of 2 micrograms neuropeptide Y (NPY). This refractory feeding response was present prior to the onset of anorexia and became more severe as anorexia worsened. The constant infusion of NPY (125 ng/h) into the perifornical hypothalamus of TB and control rats elicited increased feeding for only 2 days. Because chromatography revealed minipump NPY to be intact after 10 infusion days, downregulation of NPY receptors may have occurred. Daily injection of increasing doses of NPY stimulated ad lib feeding in non-TB rats, while having no effect on TB rats. Desensitization to NPY-induced feeding following daily injections of the peptide was suggested by the loss of feeding response to a dose (500 ng) of NPY that increased food intake prior to the daily NPY treatments. These results suggest that hypothalamic NPY feeding systems are refractory in TB rats, even before they exhibit anorexia. In addition, a rapid loss of the feeding response occurred in rats with constant infusion of NPY into hypothalamic tissue or with daily intrahypothalamic injections of the peptide, suggesting possible NPY receptor-mediated alterations. Therefore, control of obesity or anorexia through NPY feeding mechanisms may prove difficult due to rapid compensatory receptor changes.
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PMID:Assessment of feeding response of tumor-bearing rats to hypothalamic injection and infusion of neuropeptide Y. 884 69


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