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

An insulin suppression test performed in random order with either biosynthetic human insulin or purified pork insulin was used to compare biological activity of these two insulins in obese patients suffering from varying degrees of glucose intolerance. Blood glucose curve, steady-state blood glucose levels, insulin sensitivity indices and steady-state plasma insulin levels were identical during the two sets of tests. Furthermore endogenous insulin and glucagon secretion were similarly suppressed. The insulin suppression test is a simple and rapid procedure to compare the biological activity of fast-acting insulins. Our results confirm the insulin-resistance in obesity and clearly show that biosynthetic human and porcine insulins have similar biological potency.
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PMID:[Comparison of biosynthetic human insulin and purified pork insulin. Studies in insulin-resistant obese patients using the insulin suppression test]. 287 Sep 43

Somatostatin is found in the D-cells of organs that are exclusively responsible for the digestion, absorption, and metabolism of ingested nutrients. D-cells apparently release their secretory products both into the interstitial space (paracrine action) and into the circulation (endocrine action). Ingestion of all three basic nutrients--fat, carbohydrate, and particularly protein--elicits a significant increase in peripheral vein plasma somatostatin levels in dogs and humans. Acidification of a meal stimulates somatostatin release in dogs. Vagal, cholinergic, and adrenergic mechanisms exert a species-dependent effect on somatostatin release. Gut hormones also participate in the regulation of postprandial somatostatin release, and endogenous opioids have an effect that depends on the composition of the meal. Stimulation of postprandial somatostatin release by H2-receptor agonists and prostaglandins has been reported. Insulin inhibits and glucagon stimulates somatostatin release. Elevated levels of circulating glucose reduce the somatostatin response, an effect that cannot be entirely explained by the parallel augmentation of insulin secretion. Circulating nutrients also modify the effect of gut hormones on D-cell function. The physiological action of somatostatin is an inhibitory effect on virtually all gastrointestinal and pancreatic exocrine and endocrine functions. Secretory and/or motor activities are attenuated, thereby preventing an exaggerated and overshooting response. Alterations of tissue somatostatin content and plasma somatostatin levels have been observed in obesity and suggest that somatostatin deficiency may be a pathogenic factor. The observed changes of somatostatin may be secondary to alterations of other functions; nevertheless, hyposomatostatinaemia might facilitate nutrient assimilation.
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PMID:Physiological and pathophysiological aspects of somatostatin. 287 4

The effect of human beta-endorphin on plasma glucose, insulin, and glucagon concentrations was studied in patients with noninsulin-dependent diabetes mellitus and in normal subjects. The subjects were divided according to their body weight into lean (body mass index, less than 25) and obese (body mass index, greater than 29.5) groups. In lean subjects, infusion of 0.5 mg/h beta-endorphin caused significant increases in peripheral plasma glucose and glucagon levels, but no change in plasma insulin. In obese subjects, there was an immediate marked increase in both plasma insulin and glucagon concentrations during the beta-endorphin infusion, but the plasma glucose response was lower than that of lean subjects. In lean diabetic patients, beta-endorphin produced significant simultaneous increments in both insulin and glucagon concentrations and significantly decreased plasma glucose levels. These hormonal responses to beta-endorphin were amplified in the obese diabetic patients. There was a significant correlation (r = 0.61; P less than 0.01) between fasting plasma glucose levels and the integrated insulin area in response to beta-endorphin. The infusion of a lower dose of beta-endorphin (0.05 mg/h) in diabetic patients produced similar increments in both insulin and glucagon levels and also decreased plasma glucose concentration. These results indicate that beta-endorphin may have important glucoregulatory effects in man depending on the dose administered, the presence of obesity, and the prevailing plasma glucose concentration.
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PMID:Hyperglycemia and obesity as determinants of glucose, insulin, and glucagon responses to beta-endorphin in human diabetes mellitus. 295 63

Many digestive complaints are associated with abnormalities in gastrointestinal peptide hormone function. To investigate the effect of obesity on the release of pancreatic peptide hormones, we have compared the release of insulin and glucagon in non-obese-obese Dutch women in response to isocaloric mixed meals and to Naloxone, an opioid antagonist. Healthy premenopausal women who were separated into three groups based on body mass index (BMI less than 23; 23-27, greater than 28), were fed 600-calorie breakfasts. Higher fasting levels of plasma insulin and glucagon occurred in obese (BMI greater than 28) than lean (BMI less than 23) women, while glucagon and insulin release after a high fat meal occurred in obese women. Naloxone administration in obese women decreased plasma insulin and glucagon, but in lean women, naloxone increased plasma glucagon but did not alter plasma insulin levels. Results indicate differences in opiate effects on pancreatic function in non-obese-obese women.
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PMID:Glucagon and insulin response to meals in non-obese and obese Dutch women. 295 77

Naloxone, an opiate antagonist, was given as an intravenous bolus (5 mg) in both lean and obese healthy subjects. In lean people, there was a slight trend for insulin and C-peptide concentrations to decrease below baseline values with no glucose change. Obese subjects showed an exaggerated suppression of insulin and C-peptide and a slight decrease of glucose. Glucagon was suppressed in both groups. An infusion of human beta-endorphin (0.05 mg/h) produced only minor changes in plasma glucose, insulin, glucagon, and C-peptide concentrations in lean subjects, but caused marked increments in obese. Glucagon rose in both groups, but its response was greater in obese subjects. A ten-day treatment with naloxone (1.2 mg twice a day) did not change the metabolic and hormonal responses to an oral glucose load (75 g) in lean but significantly inhibited the insulin and C-peptide responses to glucose in obese people. These results suggest that an increased opiate drive to the pancreatic beta-cell and an increased responsiveness of insulin to beta-endorphin are present in human obesity.
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PMID:Sensitivity to beta-endorphin as a cause of human obesity. 295 73

Hepatic glycogen metabolism was investigated in genetically diabetic C57BL/KsJ-db/db mice during their development. Initially, the development of obesity, hyperglycemia, hyperinsulinemia, and hyperglucagonemia in these mice was examined, which illustrated that the diabetes progressed normally. Little difference in hepatic glycogen concentrations was observed, averaging approximately 50 and 60 mg/g liver in diabetic (db/db) and control heterozygote (db/+) mice, respectively. Glycogen synthase activity (total and a-form) was significantly elevated by 5 wk in the diabetic mice relative to controls and reached maximum levels (two-fold higher than controls) around 8-9 wk. This activity then slowly declined during the rest of the 15-wk period examined. Both phosphorylase a and total phosphorylase activities were also elevated by 5 wk, reaching levels twofold higher than controls. These activities did not decline at the end of this 15-wk period, but instead continued to slowly increase. Glycogen synthase a activity showed a positive correlation (r = 0.54, N = 144) with circulating levels of insulin, and a similar correlation was seen for phosphorylase a activity and plasma glucagon levels (r = 0.64, N = 72). Protein kinase and phosphoprotein phosphatase activities were also measured, but no differences were detected between diabetic and control mice. This longitudinal study clarifies some of the changes in hepatic glycogen metabolism that occur during the progression of diabetes in the db/db mouse and indicates a role for circulating insulin and glucagon concentrations on the steady-state activities of glycogen synthase and phosphorylase, respectively.
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PMID:Age-related changes in hepatic glycogen metabolism in the genetically diabetic (db/db) mouse. 298 86

The glucagon receptor and the adenylyl cyclase system of human liver membranes were studied in six non-obese and six obese subjects who had elevated insulin and plasma glucagon levels. Analysis of specific glucagon binding by the method of Scatchard demonstrated a linear (monocomponent) plot with a dissociation constant of 2-3 nM, and the binding at low hormone concentrations was sensitive to guanosine triphosphate (GTP). The molecular weight of the glucagon receptor was 63,000 D as determined by an affinity labeling procedure and sodium dodecyl sulfate gel electrophoresis. Affinity labeling of this structure was specific for glucagon and inhibited by GTP. Glucagon stimulated the production of cyclic adenosine monophosphate (cAMP) by human membranes with half-maximal activation elicited by 6 nM hormone. The human cyclase system required GTP to facilitate an optimal glucagon response. NaF (10 mM) also activated the cyclase system and produced the same magnitude of response as maximum glucagon activation. A comparison of the liver adenylyl cyclase system of non-obese and obese subjects was made using glucagon (5 nM and 1 microM) and NaF (10 mM). No significant differences in cAMP production were noted between the two groups, regardless of the agent used to activate the enzyme. These findings agree with the glucagon binding studies that showed similar amounts of binding activity in the membranes from the two groups. Also, there was no influence of either age or sex of the subjects on the adenylyl cyclase response. In conclusion, human liver membranes contain a glucagon receptor and an adenylyl cyclase system that correspond closely to the well-studied system in animal liver. This system in human obesity is not altered by the approximately twofold elevation in plasma glucagon that occurs in this metabolic disorder.
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PMID:Glucagon receptor of human liver. Studies of its molecular weight and binding properties, and its ability to activate hepatic adenylyl cyclase of non-obese and obese subjects. 298 13

A catabolic and hypolipemic effect of glucagon has been described in normal animals. We therefore studied the role of glucagon in genetically obese, hyperlipemic rats. Twelve genetically obese hyperlipemic LA/N-cp/cp (corpulent) rats and 12 lean littermates were fed either 54% starch or 54% sucrose for 12 weeks. Plasma glucagon and insulin levels and glucagon and insulin binding to liver membranes were measured. Comparing all corpulent and lean animals regardless of diet, a significant (P less than 0.0001) phenotypical effect (cp/cp greater than lean) was observed in plasma insulin levels (464 +/- 54 vs 70.3 +/- 7.6 muu/ml, mean +/- SEM). Insulin binding (2.68 vs 16.1%/50 micrograms protein) and glucagon binding (25.6 vs 47.3%/50 micrograms protein) were both significantly lower (P less than 0.0001) in corpulent rats as compared to their lean littermates. Sucrose feeding had marginal effect on plasma insulin or insulin binding. It, however, decreased glucagon binding in corpulent rats but not in their controls. A significant negative correlation was observed between plasma insulin and insulin binding, while a positive correlation was seen for plasma glucagon and glucagon binding. A significant negative correlation was observed between plasma glucagon and lipogenic enzymes (glucose-6-phosphate dehydrogenase and malic enzyme) in liver and between glucagon binding and these enzymes. We propose that in these genetically obese rats, in addition to hyperinsulinemia, impaired glucagon activity as manifested by decreased glucagon binding to target cells may be an important contributor to the hyperlipemia and obesity. A further decrease in glucagon binding in rats fed sucrose indicates that sucrose, per se, may be an additional contributory factor.
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PMID:Genetic obesity and dietary sucrose decrease hepatic glucagon and insulin receptors in LA/N-corpulent rats. 300 53

Opiates stimulate the growth hormone and prolactin responses to stimuli in non-obese humans. Obese patients, however, show lowered growth hormone and prolactin responses and raised beta-endorphin levels. We therefore investigated the effect of the opiate antagonist naloxone on the stimulated growth hormone and prolactin secretions in a controlled double-blind study in obese patients. All patients received 200 micrograms TRH and 0.5 g/kg b.w. arginine together with 2 mg of naloxone or placebo i.v. in a randomized sequence. The TRH- and arginine-induced increases in prolactin and growth hormone were significantly greater after administration of naloxone (p less than 0.05). Naloxone also produced a significant increase in ACTH, cortisol and beta-endorphin when compared with placebo. TSH, triiodothyronine, thyroxine, insulin, glucagon and blood glucose showed no significant differences between both days of the trial. The effect of naloxone on growth hormone and prolactin secretions in obese humans can thus be regarded as a partial normalization. We therefore conclude that the hypothalamic regulatory disturbance of growth hormone and prolactin secretions in the obese could be caused by raised opiate levels.
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PMID:Naloxone increases the response of growth hormone and prolactin to stimuli in obese humans. 303 2

Certain features of the body hormonal system participation in the realizing of the specific dynamic action of food (SDAF) were studied in 26 patients with exogenous constitutional obesity. The radioimmunoassay was used to estimate the levels of a number of hormones (gastrin, insulin, glucagon, triiodothyronine, thyrotrophin, adrenocorticotrophin and hydrocortisone) in the peripheral blood of the patients on an empty stomach (the basal level) and 1,2 and 4 hours after food protein intake. The control group consisted of 20 normal subjects. It has been shown that SDAF is a complex process of changing from the state of hunger to satiation that involves many regulatory components, both nervous and humoral. The study of the features of the SDAF development in health and disease presents valuable information on the mechanisms of metabolic disorders in the body in varying pathologic states including obesity.
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PMID:[Specific dynamic action of food in obese patients]. 303 2


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