UMLS:C0020505 - FACTA Search

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Query: UMLS:C0020505 (hyperphagia)
6,116 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cholestatic jaundice is the major complication of total parenteral nutrition (TPN). Both the intravenous (IV) route of nutrition and the enteral fast have been implicated as causes of TPN-associated cholestasis (TPN-AC). The purpose of this study was to determine whether TPN-AC is caused by the TPN solution itself or the IV route of administration and enteral fast. Prepubescent rabbits (n = 24) were divided into four groups: CONTROL, fed standard lab chow; TPN, received a standard hyperalimentation solution of dextrose, Aminosyn, and lipids via the jugular vein; ENT, received the same hyperalimentation solution via a duodenostomy tube; and OSM, received a polymeric formula (Osmolite) via a duodenostomy tube. After 14 days on these diets, we measured bile flow, bile acid excretion, sulfobromophthalein (BSP) excretion, plasma amino acid profile, serum liver enzymes, and liver histology. Statistical analysis was by analysis of variance. Hyperalimentation solution significantly depressed hepatobiliary function, whether it was given IV or by gut. Bile flow in both the TPN (36.4 microL/kg/min) and ENT (46.2) groups was significantly less than CONTROL (84.5) or OSM (62.9). Hepatic secretory function, measured by excretion of the cholephilic dye BSP, was depressed in both TPN and ENT (57% and 55% of IV dose excreted in bile over 60 minutes, respectively) compared with CONTROL (84%) or OSM (71%). Serum liver enzymes were normal in all groups. Histological injury similar to TPN-AC in humans (portal inflammation and hepatocyte degeneration) was seen in both groups receiving the hyperalimentation solution.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Hepatobiliary dysfunction during total parenteral nutrition is caused by infusate, not the route of administration. 846 53

Glucagon-like peptide 1 (GLP-1) is a physiological incretin hormone in normal humans explaining in part the augmented insulin response after oral versus intravenous glucose administration. In addition, GLP-1 also lowers glucagon concentrations, slows gastric emptying, stimulates (pro)insulin biosynthesis, reduces food intake upon intracerebroventricular administration in animals, and may, in addition, enhance insulin sensitivity. Therefore, GLP-1, in many aspects, opposes the Type 2-diabetic phenotype characterized by disturbed glucose-induced insulin secretory capacity, hyperglucagonaemia, moderate insulin deficiency, accelerated gastric emptying, overeating (obesity) and insulin resistance. The other incretin hormone, gastric inhibitory polypeptide (GIP), has lost almost all its activity in Type 2-diabetic patients. In contrast, GLP-1 glucose-dependently stimulates insulin secretion in diet- and sulfonylurea-treated Type 2-diabetic patients and also in patients under insulin therapy long after sulfonylurea secondary failure. Exogenous administration of GLP-1 ([7-37] or [7-36 amide]) in doses elevating plasma concentrations to approximately 3-4 fold physiological postprandial levels fully normalizes fasting hyperglycaemia in Type 2-diabetic patients. The half life of GLP-1 is too short to maintain therapeutic plasma levels for sufficient periods by subcutaneous injections. Current research activities aim at finding GLP-1 analogues with more suitable pharmacokinetic properties than the original peptide. Another approach could be the augmentation of endogenous release of GLP-1, which is abundant in L cells of the lower small intestine and the colon. Interference with sucrose digestion using alpha-glucosidase inhibition moves nutrients into distal parts of the gastrointestinal tract and, thereby, prolongs and augments GLP-1 release. Enprostil, a prostaglandin E2 analogue, fully suppresses GIP responses, while only marginally affecting insulin secretion and glucose tolerance after oral glucose, suggesting compensatory hypersecretion of additional insulinotropic peptides, possibly including GLP-1. Given the large amount of GLP-1 present in L cells, it appears worthwhile to look for more agents that could 'mobilize' this endogenous pool of the 'antidiabetogenic' gut hormone GLP-1.
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PMID:Glucagon-like peptide 1 (GLP-1) as a new therapeutic approach for type 2-diabetes. 928 4

Postprandial hyperlipidemia (PH) is recognized as a significant risk factor for cardiovascular disease. The present study, involving rats with streptozotocin (STZ)-induced diabetes, was performed to establish a PH model and to examine the relation between small intestinal acyl-coenzyme A:cholesterol acyltransferase (ACAT) activity and serum lipid levels in the postprandial state. The small intestinal ACAT activities in normal rats during the experimental period were 4 to 5 pmol/mg protein per minute. In contrast, in the diabetic rats, the ACAT activities were 2 to 3 times higher than activities seen in normal rats from 7 to 21 days after the STZ injection in the absence of a high fat diet and hyperplasia in the gut. In an oral fat-loading test that used diabetic rats that had been injected with STZ (60 mg/kg) intravenously 14 days previously, the postloading changes in the serum concentrations of total cholesterol (TC) and triglyceride (TG) were significantly greater in the diabetic rats than in normal rats. Single oral administration of (1s,2s)-2-[3-(2,2-dimethylpropyl)-3-nonylureido]cyclohexane- 1-yl 3-[(4R)-N-(2,2,5,5-tetramethyl-1, 3-dioxane-4-carbonyl)amino]propionate (F-1394, 3 to 30 mg/kg), a potent ACAT inhibitor, suppressed the post-fat-loading elevation of serum TC levels in the diabetic rats in a dose-dependent manner without affecting serum glucose levels. Furthermore, the small intestinal ACAT activity, serum TG levels, and lymphatic absorption of TC and TG in the rats that were administered F-1394 (30 mg/kg) were reduced by approximately 90%, 70%, 30%, and 15%, respectively. This is the first evidence that elevated ACAT activity in the gut, unlike hyperplasia and hyperphagia, induces PH in rats. Our results strongly suggest that F-1394 may be a potential treatment for PH in humans.
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PMID:Postprandial hyperlipidemia in streptozotocin-induced diabetic rats is due to abnormal increase in intestinal acyl coenzyme A:cholesterol acyltransferase activity. 1063 14

The hypothalamus is the focus of many peripheral signals and neural pathways that control energy homeostasis and body weight. Emphasis has moved away from anatomical concepts of 'feeding' and 'satiety' centres to the specific neurotransmitters that modulate feeding behaviour and energy expenditure. We have chosen three examples to illustrate the physiological roles of hypothalamic neurotransmitters and their potential as targets for the development of new drugs to treat obesity and other nutritional disorders. Neuropeptide Y (NPY) is expressed by neurones of the hypothalamic arcuate nucleus (ARC) that project to important appetite-regulating nuclei, including the paraventricular nucleus (PVN). NPY injected into the PVN is the most potent central appetite stimulant known, and also inhibits thermogenesis; repeated administration rapidly induces obesity. The ARC NPY neurones are stimulated by starvation, probably mediated by falls in circulating leptin and insulin (which both inhibit these neurones), and contribute to the increased hunger in this and other conditions of energy deficit. They therefore act homeostatically to correct negative energy balance. ARC NPY neurones also mediate hyperphagia and obesity in the ob/ob and db/db mice and fa/fa rat, in which leptin inhibition is lost through mutations affecting leptin or its receptor. Antagonists of the Y5 receptor (currently thought to be the NPY 'feeding' receptor) have anti-obesity effects. Melanocortin-4 receptors (MC4-R) are expressed in various hypothalamic regions, including the ventromedial nucleus and ARC. Activation of MC4-R by agonists such as alpha-melanocyte-stimulating hormone (a cleavage product of pro-opiomelanocortin which is expressed in ARC neurones) inhibits feeding and causes weight loss. Conversely, MC4-R antagonists such as 'agouti' protein and agouti gene-related peptide (AGRP) stimulate feeding and cause obesity. Ectopic expression of agouti in the hypothalamus leads to obesity in the AVY mouse, while AGRP is co-expressed by NPY neurones in the ARC. Synthetic MC4-R agonists may ultimately find use as anti-obesity drugs in human subjects Orexins-A and -B, derived from prepro-orexin, are expressed in specific neurones of the lateral hypothalamic area (LHA). Orexin-A injected centrally stimulates eating and prepro-orexin mRNA is up regulated by fasting and hypoglycaemia. The LHA is important in receiving sensory signals from the gut and liver, and in sensing glucose, and orexin neurones may be involved in stimulating feeding in response to falls in plasma glucose.
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PMID:The hypothalamus and the regulation of energy homeostasis: lifting the lid on a black box. 1099 54

The cardinal feature of individuals with Prader-Willi syndrome (PWS) is severe hyperphagia-mediated obesity resulting from a faulty satiety mechanism. PWS is the most common genetic cause of marked obesity. Cholecystokinin (CCK) is a 33-amino-acid peptide found in high levels in the gut and brain involved in mediating the satiety response to meals. Free fatty acids (FFA) are responsible for the stimulation of CCK release after a fatty meal, and CCK and plasma FFA levels rise in tandem in normal individuals. Fasting plasma CCK levels were measured by radio-immunoassay in 33 PWS subjects with a mean age of 22.2 years +/- 8.1 years and 24 obese control subjects without a known cause of their obesity with a mean age of 28.7 years +/- 12.9 years. Consistent with previous findings, neither fasting plasma FFA levels (617.5 versus 486.8 microm/mL) or CCK levels (21.0 versus 19.1 pg/mL) were significantly different in PWS or control subjects, respectively. However, there was a significant correlation between fasting plasma FFA and CCK levels in obese subjects (r = 0. 64, P < 0.01), this correlation was completely lacking in PWS subjects (r = -0.06, P = 0.79). This difference in correlation coefficients constitutes a large effect. There were no significant effects observed for genetic subtypes (15q11-q13 deletion or maternal disomy 15), body mass index, percentage of fat, plasma levels of insulin, C-peptide, glucagon or leptin, age, or gender on CCK levels in our PWS subjects. These results suggest that differences in the peripheral CCK response to FFA levels may be a factor contributing to the altered satiety response in PWS subjects.
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PMID:Plasma cholecystokinin levels in Prader-Willi syndrome and obese subjects. 1107 97

Hyperphagia (overeating) is often associated with energy over-storage and obesity, which may lead to a myriad of serious health problems, including heart disease, hypertension, and type 2 diabetes. Thus, understanding the complex pathological mechanisms underlying hyperphagia and obesity has an important clinical significance. Leptin, or ob protein, is a key element in the long-term regulation of food intake and body weight homeostasis. It circulates in the blood at levels correlated with body fat mass. Leptin binds to specific receptors in the hypothalamus to mediate events that regulate feeding behavior. In light of new evidence, the initial view that leptin is an adipocyte-derived signal, which acts centrally to decrease body weight, has been modified. It has been shown that leptin may also have specific functions in the gastrointestinal tract, suggesting that feeding and energy homeostasis is regulated by both central and peripheral signals. Evidence supports the view that leptin integrates short-term, meal-related signals from the gut into long-term regulation of energy balance. In addition, the gastric leptin level is altered by the nutritional state and the administration of cholecystokinin. This commentary aims to review the evidence of the role of leptin as a peripherally acting signal in the gut in the regulation of nutrient intake, adiposity, and body weight. Based on currently available data, some potential future studies are suggested.
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PMID:Leptin, gut, and food intake. 1200 60

Although nutritional support using nutrient enemas was recorded almost 3,500 years ago, the modern era of clinical dietetics commenced with the development of intravenous hyperalimentation by Dudrick et al. and the development of the chemically defined diet by Greenstein et al. Thereafter, clinical nutritional support became widely accepted as one of the basic tools of patient care, and knowledge of the metabolism of nutrients has been extended. In particular, the significance of micronutrients in systemic function, importance of gut function on the systemic metabolism and immune system, and involvement of amino acids and fat elements in the development and amelioration of specific disease status such as renal and hepatic failure have been recognized, and specific nutritional support has been created as a treatment strategy. In addition to knowledge of renal and hepatic failure or metabolic disorders, accumulated information on tumor metabolism and pathophysiology in cancer cachexia has also enabled cancer treatment using a nutritional approach. An enteral diet containing certain amino acids such as arginine or glutamate, omega-3 unsaturated fatty acids, and nucleic acids has been developed, and its clinical application under the new concept of "immunonutrition" has demonstrated reduction of the incidence of infection and shortening of hospital stay. Many questions on Immunonutrition remain to be answered such as its mechanism or optimal composition, although it is a promising field for future evolution. Currently, the assessment of nutritional status and gut function is required through lifelong education of medical doctors as well as the popularization of nutritional support teams. In the near future, tailor-made nutritional support will be required based on gene polymorphisms.
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PMID:[Advance and perspective of clinical nutrition]. 1502 60

Postnatal development in most mammals is accompanied by the acquisition of controls of ingestion. In rodents, the initial and default controller appears to be gastric stretch. In the second week of life, rat pups acquire the ability to sense the presence of nutrients within the gut and appropriately modulate ingestion. In the third week of life, rat pups start to become weaned from the dam's milk and begin independent ingestion. There have been strong indications that neuropeptide Y is a stimulator of ingestion in adults, although there was very little information in pups. Dr. Gerard Smith initiated a series of studies that provide strong evidence to indicate that hypothalamic neuropeptide Y (NPY) neurons are strong candidates for providing the ability of preweaning rat pups to modulate ingestion according to caloric intake. Moreover, the studies also suggest that the overactivity of hypothalamic NPY neurons presage the onset of hyperphagia in syndromes associated with defects in leptin signaling.
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PMID:Molecular and cellular correlates of the developmental acquisition of mechanisms modulating ingestive behavior. 1523 3

In mammals, including humans, a brain-gut hormone, cholecystokinin (CCK) mediates the satiety effect via CCK-A receptor (R). We generated CCK-AR gene-deficient (-/-) mice and found that the daily food intake, energy expenditure, and gastric emptying of a liquid meal did not change compared with those of wild-type mice. Because CCK-AR(-/-) mice show anxiolytic status, we examined the effects of restraint stress. Seven hours of restraint stress was found to significantly decrease both body weight and food intake during the subsequent 3 days in all tested animals. On the fourth day after restraint stress, the CCK-AR(-/-) mice showed a significantly higher level of daily food intake than prior to stress, and food intake recovered to prestress levels in the wild-type mice. Since peripheral CCK-AR has been known to mediate gastric emptying, both gastric emptying and gastric acid secretion were determined to examine the mechanism of overeating in CCK-AR(-/-) mice. Neither gastric emptying nor gastric acid secretion differed between CCK-AR(-/-) and wild-type mice on the fourth day after stress. In contrast, however, the contents of dopamine and its metabolites in the cerebral cortex of CCK-AR(-/-) mice were increased by stress, but were rather decreased in wild-type mice. Changes in 5-hydroxytryptamine (5-HT) and its metabolite 5HIAA did not differ between the genotypes. In conclusion, CCK-AR(-/-) mice showed overeating after restraint stress, and dopaminergic hyperfunction in the brain of these mice was observed. The present evidence suggests that the CCK-AR function, possibly via altering the dopaminergic function, might be involved in overeating after stress.
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PMID:Overeating after restraint stress in cholecystokinin-a receptor-deficient mice. 1627 26

Genetic and pharmacological studies have shown that the central melanocortin system plays a critical role in the regulation of energy homeostasis. Animals and humans with defects in the central melanocortin system display a characteristic melanocortin obesity phenotype typified by increased adiposity, hyperphagia, metabolic defects and increased linear growth. In addition to interacting with long-term regulators of energy homeostasis such as leptin, more recent data suggest that the central melanocortin system also responds to gut-released peptides involved in mediating satiety. In this review, we discuss the interactions between these systems, with particular emphasis on cholecystokinin (CCK), ghrelin and PYY(3-36).
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PMID:Interactions between gut peptides and the central melanocortin system in the regulation of energy homeostasis. 1630 92

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