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)

Twenty-four patients--5 normals, 5 obese subjects, 9 normal weight maturity-onset diabetics and 5 obese maturity-onset diabetics--were subjected to stimulation with the gastro-intestinal hormone secretin (GIH, Stockholm, Sweden). Secretin was administered by rapid intravenous injection 6 times every 30 min in doses increasing from 0.9-90 pmol/kg body weight. Radioimmunological insulin assay and blood glucose determination were carried out. The secretin-induced maximum insulin response rose in all groups with increasing doses. D50 (16 pmol/kg body weight) was identical in all 4 groups. Thus, the diabetic B cells exhibited the same sensitivity to secretin as the normals. Obese subjects already showed a significant insulin response after 0.9 pmol secretin/kg, whereas the response of normal weight subjects did not rise until the dose was 3.6 pmol/kg. This, combined with the normal D50, indicates an increased B cell mass in obese subjects.
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PMID:Secretin-induced insulin response. II. Dose-response relation. 77 74

Impaired gallbladder emptying has been suggested as a possible factor in the pathogenesis of gallstones. Obese people have an increased incidence of gallstones, but there is no evidence of this in nonobese large people. This study was undertaken to determine if abnormal gallbladder motility is present in obese people. Fasting gallbladder volumes were determined using real-time ultrasound in 18 morbidly obese subjects whose weights were in a steady state [45 kg (100 lb) over ideal weight or twice expected weight for age and height; 9 males, 9 females], 18 age- and sex-matched volunteers of average size, and 18 nonobese large normal males (9 tall, 9 muscular). Gallbladder emptying studies with 99mtechnetium-diisopropyliminodiacetic acid were performed using 200 ml of 10% cream as a stimulus. The small-volume liquid fatty meal contained 113indium-diethylenetriaminepentaacetic acid to control for differences in gastric emptying in obesity. The gallbladder emptying rate in large people, both obese and nonobese, was less than that in normals of average size (p = 0.05). Fasting gallbladder volumes in large people were: obese, 41 ml (37-66 ml) (median; 95% confidence limits); nonobese large normal, 40 ml (27-43 ml). These values were greater than in normals of average size [17 ml (14-21 ml) (p = 0.03)]. Postprandial gallbladder volumes were also greater in large people: obese, 15 ml (8-23 ml); nonobese large normal, 20 ml (13-23 ml) compared with 2 ml (1-5 ml) in normals of average size (p less than 0.05). There were no differences between obese and nonobese large people. There were no differences in gastric emptying rates or in cholecystokinin, gastrin, motilin, and secretin release between obese and normal subjects. Gallbladder volume is crudely proportional to body size. Although fasting and postprandial volumes are greater in obesity, this is also present in nonobese, relatively size-matched controls. These data do not support a role for impaired gallbladder emptying in gallstone formation in obese patients whose weights are in a steady state.
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PMID:Increased volume and decreased emptying of the gallbladder in large (morbidly obese, tall normal, and muscular normal) people. 217 26

Pancreatic polypeptide (PP) may function as a regulator of satiety. Its secretion is impaired in certain animal models of obesity and the administration of PP may improve the hyperphagia and hyperinsulinism seen in these animals. In obese humans, decreased, normal or increased, basal and stimulated concentrations of PP in plasma have been reported. However the advent of diabetes confounds the picture since PP levels in diabetes are generally raised. We have therefore examined the PP responses to intravenous secretin, a known PP secretagogue, in 23 obese subjects, 12 with normal and 11 with abnormal glucose tolerance, and compared the results with those in 23 age and sex-matched healthy controls. The mean maximum PP level in obese subjects with normal glucose tolerance (98 +/- 13 pg/ml) was significantly less than that in normal subjects (218 +/- 23 pg/ml) but in obese subjects with abnormal glucose tolerance, it was significantly greater (578 +/- 115 pg/ml). Within each of the 3 study groups taken separately, PP response to secretin was not correlated with glucose or insulin levels, or with the degree of obesity. Thus, obesity per se appears to be associated with impaired PP responses, which may be masked by abnormalities in glucose tolerance.
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PMID:Pancreatic polypeptide response to secretin in obesity: effects of glucose intolerance. 304 79

We previously found that massively obese patients respond with less gastric acid secretion in response to vagal stimulation. This is compatible with the described association between experimental obesity and altered vagal function in the rat. To confirm this observation, the pancreatic and biliary responses to vagal stimulation were examined in nine nondiabetic obese patients against a background secretin infusion of 15 CU x h-1, and monitored after a subsequent injection of 75 IDU of cholecystokinin. Two separate marker perfusion systems were used in the stomach and duodenum, respectively, and blood samples were drawn for hormone analyses. In contrast to controls having normal body weight, the obese patients failed to respond with increments of pancreatic enzyme secretion and duodenal bile acids after stimulation with modified sham feeding. Cholecystokinin stimulated the pancreatic secretion of trypsin, amylase, and lipase, the emptying of bile acids, and the release of gastrin, but the patients' responses were only half that of the controls. In the resting state the obese had higher outputs of bile and pancreatic enzymes and higher plasma levels of pancreatic polypeptide compared with controls, but the pancreatic bicarbonate secretion rate was not different. The almost complete suppression of the basal gastric acid secretion by a low dose of intravenous (IV) secretin in controls did not occur in the obese. We conclude that massive obesity is associated with a reduced pancreatic and biliary response to vagal stimulation. Compared with controls, the digestive functions of the obese patients seem to be less sensitive to stimulation by exogenous cholecystokinin.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Impaired pancreatico-biliary response to vagal stimulation and to cholecystokinin in human obesity. 328 31

There is evidence for involvement of gastrointestinal hormones in pathogenesis of obesity and reports on lipolytic activity in animals. The in vitro lipolytic activity of these hormones was tested in human adipocytes. Vasoactive intestinal polypeptide, glucagon, secretin, human gastrin I, gastrin releasing polypeptide, gastric inhibitory polypeptide, pancreatic polypeptide, motilin, bombesin, neurotensin, C-peptide, as well as cholecystokinin did not stimulate lipolysis significantly above basal. These results indicate that the involvement of these hormones in obesity in man might not be due to a direct lipolytic effect on the human adipocyte.
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PMID:Glycerol release from incubated human adipocytes is not affected by gastrointestinal peptides. 401 16

We have assessed the presence of VIP/PHI/secretin receptors in heart by: (1) testing the ability of the corresponding peptides to activate adenylate cyclase in cardiac membranes from rat, dog, Cynomolgus monkey and man, and (2) examining the ability of the same peptides to exert inotropic and chronotropic effects on heart preparations from rat and Cynomolgus monkey in vitro. Based on their affinity for natural peptides and synthetic analogs, two types of VIP/PHI/secretin receptors were characterized: the relatively nonspecific "secretin/VIP receptor" of rat heart (that is "secretin-preferring" only in that secretin was more efficient than VIP in stimulating adenylate cyclase), and the "VIP/PHI-preferring" receptor of man, monkey and dog heart. Four physiopathological situations affecting secretin/VIP receptors in rat heart were explored: In male rats from the Okamoto strain and the Lyon strain, two strains presenting spontaneous hypertension, heart membranes exhibited a markedly decreased response of adenylate cyclase to secretin/VIP, with lesser alterations in the responses to isoproterenol and glucagon. This impairment developed in parallel with the occurrence of hypertension and was reproduced in normotensive rats submitted to chronic isoproterenol treatment (but not in Goldblatt hypertensive rats). These findings are consistent with a hyperactivity of norepinephrine pathways in spontaneously hypertensive rats, leading to a reduced number of cardiac post-junctional secretin/VIP receptors bound to adenylate cyclase. Heart membranes from genetically obese (fa/fa) Zucker rats also exhibited severely decreased responses to secretin/VIP with lesser alterations in the responses to glucagon and isoproterenol. These anomalies were specific for the heart, and developed in concomitance with obesity. The first anomaly could not be corrected by severe food restriction. Secretin stimulation of heart adenylate cyclase was also selectively altered in streptozotocin-diabetic rats. Thus, two types of diabetic cardiomyopathy were characterized by a severe local alteration of secretin/VIP receptors coupled to adenylate cyclase. Hypothyroidism, provoked in rat by thyroidectomy or propylthiouracil treatment, again induced a marked decrease in secretin-stimulated cardiac adenylate cyclase activity. In rat papillary muscle electrically stimulated in vitro, secretin exerted a positive inotropic effect. This effect was reduced in obese (fa/fa) Zucker rats. In rat right atrium, secretin also exerted a positive chronotropic effects.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Heart receptors for VIP, PHI and secretin are able to activate adenylate cyclase and to mediate inotropic and chronotropic effects. Species variations and physiopathology. 608 34

The age-related development of the capacity of the cardiac adenylate cyclase system to be stimulated with secretin, vasoactive intestinal peptide (VIP), glucagon, the beta-adrenergic agonist isoproterenol, Gpp(NH)p, and NaF was compared in obese (fa/fa) Zucker rats and their lean (FA/?) littermates. The obese (fa/fa) Zucker rats tested developed postweaning obesity associated with marked hypertriglyceridemia, mild hyperglycemia, and hyperinsulinism. At 4 weeks, there was already a 57% reduction in secretin-VIP-stimulated adenylate cyclase activity in fa/fa rats. At 12 weeks, the secretin-VIP-stimulation was reduced by 77%, and glucagon- and isoproterenol-stimulations by 16-21%. At 45 weeks, secretin-VIP-stimulation was reduced by 91%, glucagon- and isoproterenol stimulations by 34-42%, and Gpp(NH)p- and NaF-stimulations by 16-23%. The reductions of isoproterenol-, Gpp(NH)p-, and NaF-stimulations were totally or partially reversed in 30-week old fa/fa animals submitted for 5 weeks to severe food restriction that almost normalized the altered blood parameters. In sharp contrast, food restriction imposed a further decrease in secretin-VIP- and glucagon-stimulated adenylate cyclase activities. This pattern of impaired secretin-VIP-stimulated adenylate cyclase activity appeared limited to cardiac membranes in obese animals as the responses of liver, brain and anterior pituitary adenylate cyclase activities to secretin and/or VIP were unaltered. These results suggest that secretin-VIP receptors coupled to adenylate cyclase were rapidly and specifically altered in the heart of fa/fa Zucker rats.
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PMID:Impairment of hormone-stimulated cardiac adenylate cyclase activity in the genetically obese (fa/fa) Zucker rat. 626 81

Twenty-six patients who were more than 35 per cent above their ideal weight were examined before the introduction of a weight reduction programme. At the end of a three-month period, seven patients had lost more than 10 per cent of their body weight. These patients had significantly lower triglyceride levels, fasting gastric inhibitory polypeptide levels (GIP) and prolactin levels. Fasting vasoactive intestinal polypeptide levels (VIP) before commencing diet were raised in six of the 19 patients who subsequently did not lose weight whereas the seven patients who lost weight had normal VIP levels (X2 = 3.07, P less than 0.05). Patients with high VIP levels had higher triglyceride levels, higher mean C-terminal glucagon-like immunoreactivity (C-GLI) and higher post glucose infusion secretin levels. There was a significant correlation between triglycerides and VIP. The significance of abnormally high VIP levels in obesity and the inability of these patients to lose weight is discussed.
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PMID:Vasoactive intestinal polypeptide in obesity. 634 22

The hormone leptin is expressed and secreted by the adipose tissue and impacts on the central nervous system. Leptin is involved in the regulation of energy balance, satiety, and body composition. The lack of active leptin results in obesity, high food intake, hyperglycemia, and hyperinsulinemia. We present data supporting effects of leptin on the endocrine pancreas. We found the leptin receptor to be expressed in insulin- and glucagon-secretin cells derived from mouse, hamster, and rat pancreas. In the isolated perfused rat pancreas leptin is a potent inhibitor of basal and glucose-induced insulin secretion, especially during the first phase of the insulin response. At isolated mouse islets and insulin-secreting INS-1 cells leptin reduced promptly and persistently the intracellular Ca2+ levels. Cytoplasmic Ca2+ oscillation amplitude was decreased and the oscillation frequency increased. These findings suggest functional active receptors for leptin on insulin-secreting B-cells. Therefore, leptin is a metabolic hormone and not only a signal to the brain indicating filled fat stores. Our data suggest that leptin is also a signal back to the endocrine pancreas that no more insulin is required to replenish fat stores. Thus, an "adipo-insular axis" operating with two arms exists: insulin and glucagon are signals to the adipocyte. This releases leptin, which could be the mediator of the respective feedback to the pancreas. A defective leptin suppression of insulin secretion could contribute to hyperinsulinemia and disturbances of glucose metabolism.
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PMID:Leptin: a potent inhibitor of insulin secretion. 939 72

The gastrointestinal hormone, gastric inhibitory polypeptide (GIP), is synthesized and released from the duodenum and proximal jejunum postprandially. Its release depends upon several factors including meal content and pre-existing health status (ie. obesity, diabetes, age, etc.). It was initially discovered and named for its gastric acid inhibitory properties. However, its more physiologically relevant role appears to be as an insulinotropic agent with a stimulatory effect on insulin release and synthesis. Accordingly, it was later renamed glucose-dependent insulinotropic polypeptide because its action on insulin release depends upon an increase in circulating levels of glucose. GIP is considered to be one of the principle incretin factors of the enteroinsular axis. The GIP receptor is a G-protein-coupled receptor belonging to the family of secretin/VIP receptors. GIP receptor mRNA is widely distributed in peripheral organs, including the pancreas, gut, adipose tissue, heart, adrenal cortex, and brain, suggesting it may have other functions in addition to the ones mentioned above. An overactive enteroinsular axis has been suggested to play a role in the pathogenesis of diabetes and obesity. In addition to stimulating insulin release, GIP has been shown to amplify the effect of insulin on target tissues. In adipose tissue, GIP has been reported to (1) stimulate fatty acid synthesis, (2) enhance insulin-stimulated incorporation of fatty acids into triglycerides, (3) increase insulin receptor affinity, and (4) increase sensitivity of insulin-stimulated glucose transport. In addition, although controversial, lipolytic properties of GIP have been proposed. The mechanism of action of GIP-induced effects on adipocytes is unknown, and it is unclear whether these effects of GIP on adipocytes are direct or indirect. However, there is now evidence that GIP receptors are expressed on adipocytes and that these receptors respond to GIP stimulation. Given the location of its release and the timing of its release, GIP is an ideal anabolic agent and expanding our understanding of its physiology will be needed to determine its exact role in the etiology of diabetes mellitus and obesity.
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PMID:GIP biology and fat metabolism. 1066 5

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