UMLS:C0028754 - FACTA Search

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

The present study was carried out to establish whether the low arginine vasopressin (AVP) and oxytocin (OT) responses to insulin-induced hypoglycemia observed in obese men was due to alteration of the opioid control of posterior pituitary function. For this purpose, the AVP and OT releasing effect of insulin (0.15 IU/kg bw)--induced hypoglycemia was tested in eight normal weight men and in 10 age-matched obese subjects, without and with the previous treatment with the specific opioid receptor antagonist naloxone (3 mg in an iv bolus). In a control study, naloxone was given alone to the same subjects. Obese men showed similar basal glucose, AVP and OT levels, which remained unmodified after treatment with naloxone alone. Insulin induced a similar decrement of blood glucose levels in all subjects, with a nadir at 30 min. Plasma levels of AVP and OT rose strikingly in normal and obese subjects with mean peak responses at 30 min for AVP and at 45 min for OT. However, both AVP and OT responses were significantly lower in obese than in control subjects. Pretreatment with naloxone did not modify the AVP and OT responses to hypoglycemia in normal weight subjects, whereas it significantly enhanced both hormonal responses in obese subjects. In the presence of naloxone normal controls and obese subjects showed similar responses of both AVP and OT to hypoglycemia. These data indicate that an abnormal activity of endogenous opioids might account for the hypothalamic posterior pituitary dysfunction, which is responsible for the low AVP and OT responses to insulin-induced hypoglycemia in obesity.
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PMID:Increase by naloxone of arginine vasopressin and oxytocin responses to insulin-induced hypoglycemia in obese men. 229 59

Since increased opiate production in obesity has been reported, the effects of naloxone in obese subjects were studied in order to ascertain whether endogenous opioid peptides play a role in the abundant insulin secretion of obesity. The results obtained showed that intravenous administration of naloxone considerably reduced insulin of obese subjects to a mixed meal, whereas it did not modify the blood insulin response to arginine or glucose infusion. Glucagon secretion to ingestion of a mixed meal and to arginine infusion was not modified by the opioid receptor blocking agent. This study seems to indicate that hyperproduction of endogenous opioid peptides in obesity increases insulin secretion stimulated by food intake, whereas it does not appreciably affect insulin production stimulated by circulating glucose or aminoacids.
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PMID:Possible involvement of endogenous opioids in beta-cell hyperresponsiveness in human obesity. 252 25

Of the many factors that influence food intake, there is strong evidence that opioid and CCK peptides, which stimulate feeding and elicit satiety, respectively, are important components that may act in concert to regulate energy balance. Cholecystokinin peptides have been isolated in both the brain and gastrointestinal tract, and changes in concentration in the brain and in plasma have been shown to vary with feeding. Peripherally injected CCK has been shown to elicit satiety in many species, including humans, an effect that may be mediated in the CNS via the vagus. In several species, most notably the sheep, direct injection into the CSF potently decreases food intake. Questions remaining regarding the role of CCK peptides in eliciting satiety include the sites and mechanisms of action. It is unknown whether CCK acts directly on receptors, indirectly on some other parameter, or as a neurotransmitter. Although opioid peptides have also been localized in portions of both the periphery and brain, a specific physiological role for their presence has not yet been determined. Opioid peptides from three families--endorphins, enkephalins, and dynorphins--have been shown to stimulate feeding in various species. They have been active at several opioid receptor types in the CNS, but there is limited evidence to suggest they affect food intake when administered peripherally. In contrast, peripheral injection of opiate antagonists has effectively decreased food intake, an observation that led to the original hypothesis that opioids were involved in the hunger component in the control of food intake and that excess concentrations might be involved in the development of obesity. An increasing body of evidence supports the concept that opioid and CCK peptides may interact to control food intake, but the evidence is more suggestive than conclusive.
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PMID:Role of cholecystokinin and opioid peptides in control of food intake. 286 68

Relatively few studies of humans have evaluated the effects of opioids on food intake and body weight. Most have focused on the potential role of opioids in the etiology of obesity. Measurements of endogenous opioids in plasma or spinal fluid of humans reveal higher levels, particularly of beta-endorphin, in obese subjects. Opioid agonists such as methadone and butorphanol tartrate stimulate food intake, and all studies with naloxone, an opioid antagonist, demonstrate a reduction of short-term food intake in obese or lean humans. Long-term studies with naltrexone, an antagonist similar to naloxone, show no effect on food intake or body weight. Opioid agonists or antagonists have little effect on nutrient selection in humans. The effects on feeding-related hormones is equivocal. Further studies with more specific opioid receptor activities are needed.
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PMID:Opioid regulation of food intake and body weight in humans. 354 77

With the aim of examining central opioid influences on the control of luteinizing hormone (LH) secretion, we evaluated the LH response to naloxone, an opioid receptor antagonist, in patients affected by normo-, hyper-, and hypogonadotropic amenorrhea, polycystic ovarian disease and hyperprolactinemia. The results indicate that opioid influences are altered in well-defined pathologic conditions (hyperprolactinemia, obesity), in addition to being modified by gonadal steroids.
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PMID:Impairment of opioid control of luteinizing hormone secretion in menstrual disorders. 388 35

Acute administration of long-acting general opioid antagonists reduces body weight and food intake in rats. In contrast, chronic administration of short-acting general opioid antagonists produces transient effects. The present study evaluated whether chronic central administration of selective long-acting antagonists of mu (beta-funaltrexamine, BFNA, 20 micrograms), mu1 (naloxonazine, 50 micrograms), delta1 ([D-Ala2,Leu5,Cys6]-enkephalin, DALCE, 40 micrograms), delta2 (naltrindole isothiocyanate, NTII, 20 micrograms) or kappa (nor-binaltorphamine, NBNI, 20 micrograms) opioid receptor subtypes altered weight and intake of rats exposed to a palatable diet of pellets, fat, milk and water, relative to pellet-fed and diet-fed controls. Diet-fed rats receiving chronic vehicle injections significantly increased weight (7-10%) and intake over the 11-day time course. Weight was significantly reduced over the time course in rats administered either BFNA (9%), naloxonazine (12%), DALCE (7%) or NTII (6%). Initial weight reductions failed to persist following chronic NBNI. All antagonists chronically reduced fat intake, but did not systematically alter total intake, pellet intake or milk intake relative to the pattern of weight loss. These data indicate that central mu, mu1, delta1, delta2, and, to a lesser degree, kappa receptors mediate long-term opioid modulation of weight even in animals maintained on diets that ultimately result in dietary obesity.
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PMID:Reductions in body weight following chronic central opioid receptor subtype antagonists during development of dietary obesity in rats. 762 Aug 85

For many years a series of studies has been carried out to evaluate the role of endogenous opioid peptides on glucose metabolism. In this work we studied the influence of endogenous opioid peptides on insulin response to OGTT and glucose-induced thermogenesis before and after a prolonged oral treatment with Naltrexone (50 mg/daily for 6 days), an opioid receptor antagonist, in a group of 9 obese subjects. Moreover in obese patients we evaluated the effect of this anti-opioid drug on insulin secretion and insulin sensitivity during an IVGTT using the minimal model approach. We compared the pre-treatment results with data coming from a group of 5 normal-weight subjects. We measured blood glucose, plasma insulin and C-peptide concentrations and evaluated the following parameters: first (phi 1) and second (phi 2) phase of beta-cell sensitivity, insulin sensitivity and glucose effectiveness. Obese subjects displayed an increased insulin response to oral and i.v. glucose load, due to an increased first phase of insulin secretion (phi 1), a reduced insulin sensitivity (Si) and glucose effectiveness (Sg) in respect to normal-weight subjects. They showed no difference in glucose and insulin area during oral load and in their profiles during i.v. glucose load after naltrexone treatment. Similarly no significant variation in insulin sensitivity and glucose effectiveness was observed. The glucose-induced thermogenesis, measured by indirect calorimetry, was not modified by naltrexone. Therefore our study demonstrates that endogenous opioids do not play any role in the impairment of peripheral insulin sensitivity and energy expenditure in human obesity.
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PMID:Effect of naltrexone treatment on insulin secretion, insulin action and postprandial thermogenesis in obesity. 808 73

Growth hormone-releasing peptides (GHRPs) are synthetic, non-natural peptides endowed with potent stimulatory effects on somatotrope secretion in animals and humans. They have no structural homology with GHRH and act via specific receptors present either at the pituitary or the hypothalamic level both in animals and in humans. The GHRP receptor has recently been cloned and, interestingly, it does not show sequence homology with other G-protein-coupled receptors known so far. This evidence strongly suggests the existence of a natural GHRP-like ligand which, however, has not yet been found. The mechanisms underlying the GHRP effect are still unclear. At present, several data favor the hypothesis that GHRPs could act by counteracting somatostatinergic activity both at the pituitary and the hypothalamic level and/or, at least partially, via a GHRH-mediated mechanism. However, the possibility that GHRPs act via an unknown hypothalamic factor (U factor) is still open. GHRP-6 was the first hexapeptide to be extensively studied in humans. More recently, a heptapeptide, GHRP-1, and two other hexapeptides, GHRP-2 and Hexarelin, have been synthesized and are now available for human studies. Moreover, non-peptidyl GHRP mimetics have been developed which act via GHRP receptors and their effects have been clearly demonstrated in animals and in humans in vivo. Among non-peptidyl GHRPs, MK-0677 seems the most interesting molecule. The GH-releasing activity of GHRPs is marked and dose-related after intravenous, subcutaneous, intranasal and even oral administration. The effect of GHRPs is reproducible and undergoes partial desensitization, more during continuous infusion, less during intermittent administration: in fact, prolonged administration of GHRPs increases IGF-1 levels both in animals and in humans. The GH-releasing effect of GHRPs does not depend on sex but undergoes age-related variations. It increases from birth to puberty, persists at a similar level in adulthood and decreases thereafter. By the sixth decade of life, the activity of GHRPs is reduced but it is still marked and higher than that of GHRH. The GH-releasing activity of GHRPs is synergistic with that of GHRH, is not affected by opioid receptor antagonists, such as naloxone, and is only blunted by inhibitory influences, including neurotransmitters, glucose, free fatty acids, gluco corticoids, recombinant human GH and even exogenous somatostatin, which are known to almost abolish the effect of GHRH. GHRPs maintain their GH-releasing effect in somatotrope hypersecretory states such as in acromegaly, anorexia nervosa and hyperthyroidism. On the other hand, their good GH-releasing activity has been shown in some but not in other somatotrope hyposecretory states. In fact, reduced GH responses after GHRP administration have been reported in idiopathic GH deficiency as well as in idiopathic short stature, in obesity and in hypothyroidism, while in patients with pituitary stalk disconnection or Cushing's syndrome the somatotrope responsiveness to GHRPs is almost absent. In short children an increase in height velocity has also been reported during chronic GHRP treatment. Thus, based on their marked GH-releasing effect even after oral administration, GHRPs offer their own clinical usefulness for treatment of some GH hyposecretory states.
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PMID:Growth hormone-releasing peptides. 918 61

Body weight and food intake are significantly reduced in rats during development of dietary obesity following chronic central administration of mu (beta-funaltrexamine, BFNA), mu1 (naloxonazine), kappa1 (nor-binaltorphamine, NBNI), delta1 ([D-Ala2,Leu5,Cys6]-enkephalin, DALCE) and delta2 (naltrindole isothiocyanate, NTII) opioid receptor subtype antagonists. In contrast, rats made obese by maintainance on a 'cafeteria' diet failed to display weight loss following chronic mu1 receptor antagonism. To test the hypothesis that chronic administration of opioid antagonists are less effective in controlling intake and weight in obese animals, the present study assessed whether chronic, central administration of either BFNA (20 micrograms), naloxonazine (50 micrograms), NBNI (20 micrograms), DALCE (40 micrograms) or NTII (20 micrograms) altered weight and intake in lean and obese Zucker rats over seven days. Body weight was reduced following chronic mu (lean: 42 g; obese: 49 g), mu1 (lean: 71 g; obese: 38 g), kappa1 (lean: 30 g; obese 14 g), delta1 (lean: 43 g; obese: 22 g) or delta2 (lean: 37.5 g; obese: 36 g) antagonism. Overall food intake was reduced following chronic mu (lean: 8.8 g; obese: 16.1 g), mu1 (lean: 12.6 g; obese: 17.0 g), kappa1 (lean: 6.5 g; obese 7.0 g), delta1 (lean: 9.7 g; obese: 11.1 g) or delta2 (lean: 9.4 g; obese: 14.3 g) antagonism. Therefore, both lean and obese Zucker rats display weight loss and reduced intake following chronic central administration of opioid receptor subtype antagonists.
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PMID:Evaluation of chronic opioid receptor antagonist effects upon weight and intake measures in lean and obese Zucker rats. 939 62

Growth hormone-releasing peptides (GHRPs) are a series of hepta (GHRP-1)- and hexapeptides (GHRP-2, GHRP-6, Hexarelin) that have been shown to be effective releasers of GH in animals and humans. More recently, a series of nonpeptidyl GH secretagogues (L-692,429, L-692,585, MK-0677) were discovered using GHRP-6 as a template. Some cyclic peptides as well as penta-, tetra-, and pseudotripeptides have also been described. This review summarizes recent developments in our understanding of the GHRPs, as well as the current nonpeptide pharmacologic analogs. GHRPs and their analogs have no structural homology with GHRH and act via specific receptors present at either the pituitary or the hypothalamic level. The GHRP receptor has recently been cloned and it does not show sequence homology with other G-protein-coupled receptors known so far. This evidence strongly suggests the existence of a natural GHRP-like ligand which, however, has not yet been found. Although the exact mechanism of action of GHRPs has not been fully established, there is probably a dual site of action on both the pituitary and the hypothalamus, possibly involving regulatory factors in addition to GHRH and somatostatin. Moreover, the possibility that GHRPs act via an unknown hypothalamic factor (U factor) is still open. The marked GH-releasing activity of GHRPs is reproducible and dose-related after intravenous, subcutaneous, intranasal, and even oral administration. The GH-releasing effect of GHRPs is the same in both sexes, but undergoes age-related variations. It increases from birth to puberty and decreases in aging. The GH-releasing activity of GHRPs is synergistic with that of GHRH and not affected by opioid receptor antagonists, while it is only blunted by inhibitory influences that are known to nearly abolish the effect of GHRH, such as neurotransmitters, glucose, free fatty acids, glucocorticoids, rhGH, and even exogenous somatostatin. GHRPs maintain their GH-releasing effect in somatotrope hypersecretory states, such as acromegaly, anorexia nervosa, and hyperthyroidism. On the other hand, GHRPs and their analogs have been reported to be effective in idiopathic short stature, in some situations of GH deficiency, in obesity, and in hypothyroidism, while in patients with pituitary stalk disconnection and in Cushing's syndrome the somatotrope responsiveness to GHRPs is almost absent. A potential role in the treatment of short stature, aging, catabolic states, and dilated cardiomyopathy has been envisaged.
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PMID:Growth hormone-releasing peptides and their analogs. 946 89

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