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)

Overt diabetes (NIDDM) was induced by overeating in neonatally streptozocin (60 mg/kg.BW) treated impaired glucose tolerant mice. We imposed a food restriction and a high fiber diet to evaluate the effects of dietary treatment in this NIDDM model mouse. Furthermore, insulin secretion after the dietary treatment was studied using the perfused pancreas technique. One group of IGT mice (SZ) was maintained on ordinary mouse chow during 6 to 14 weeks of age. The others received a cookie and chocolate mashed diet (C.C. diet) to induce overt diabetes during 6 to 10 weeks of age. Thereafter, the mice with induced overt diabetes were divided according to their diet treatment. The C.C. diet was continued in one group (SZC) for 4 weeks, and the others were divided into a food restriction group (SZR: 4 g/mouse/day of ordinary mouse chow, for 4 weeks) and a high fiber diet group (SZF: 20% W/W of cellulose in ordinary mouse chow, for 8 weeks). The mean caloric intake/mouse/day in SZC, SZR and SZF were 140, 80 and 98% of that in SZ, respectively. Amelioration of hyperglycemia and impaired glucose tolerance was noted in SZR and SZF. A better glycemic control was obtained in SZF with keeping a normal growth rate. On the pancreas perfusion, the insulin secretion to 30 mM glucose was improved in SZR and SZF. Furthermore, the incremental first phase peak insulin release to 30 mM glucose in SZF was significantly greater than that in SZC (SZF, 10.5 +/- 1.0 vs. SZC, 4.5 +/- 1.9 microU/min).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Dietary treatment ameliorates overt diabetes and decreased insulin secretion to glucose, induced by overeating in impaired glucose tolerant mice. 217 33

A spontaneous maturity onset diabetes obesity syndrome occurs in a small proportion (10-20%) of male CBA/Ca mice. Inbreeding can increase the incidence to 80%. It occurs at 12-16 weeks of age, and is characterized by hyperphagia, obesity, hyperglycaemia, hypertriglyceridaemia, hyperinsulinaemia, and an impaired glucose tolerance. The mice are also resistant to exogenous insulin. Female mice remain normal except for a slight increase in serum insulin. The male obese diabetic mice have a normal life expectancy. It is proposed that CBA/Ca mice can provide examples of a useful model for investigating the aetiology of type 2 diabetes and obesity, and the effectiveness of antidiabetic and antiobesity drugs.
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PMID:Characterization of the spontaneous diabetes obesity syndrome in mature male CBA/Ca mice. 269 42

Noninsulin-dependent diabetes mellitus is a major health problem, highly correlated with obesity and, therefore, overeating. Diet continues as the cornerstone of therapy, with oral hypoglycemic agents or insulin added, if needed, to maintain normal blood glucose values. The diet prescription should be implemented in stages, with caloric restriction the first priority, as weight loss itself diminishes hyperglycemia to or toward normal. Combinations of foods and even different processing or cooking of the same food may produce different glucose responses. These factors minimize the role of the glycemic index in overall diabetes management. Foods with high soluble fiber content may diminish glucose elevations after meals; however, high-fiber foods appear to be less important for the obese diabetic person than adhering to a calorie-restricted diet and achieving weight loss. Attempts should be made to alter life-style within an acceptable degree for any given patient to encourage weight reduction. For example, although exercise may have a small but transient direct effect in lowering blood glucose and insulin resistance, it can be considered an adjunct to decreased calorie diets for weight reduction. Finally, it appears prudent to prevent or reverse obesity, especially in individuals with a family history of diabetes, in the hope that the onset of diabetes may be prevented or postponed.
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PMID:Diet and exercise in noninsulin-dependent diabetes mellitus: implications for dietitians from the NIH Consensus Development Conference. 355 8

A general "glucoreceptor" defect, demonstrable in pancreatic islet and taste cells, may contribute to the metabolic and taste abnormalities of adult onset diabetes and possibly, if present at the level of the hypothalamus, could produce hyperphagia and the obesity seen in diabetics. To determine if a glucoreceptor defect generally accompanies obesity and glucose intolerance, behavioral responsiveness to glucose was examined in nine obese and nine lean female Zucker rats. Daily food and fluid intake were measured during three two-bottle preference tests, in which rats chose between water and one of several glucose solutions (1%, 3%, and 12%). Taste responsiveness to glucose of obese rats appeared normal; however, increased satiating effects of glucose were found in obese rats, possibly due to an enhanced delivery of glucose to neurons that inhibit feeding, caused by glucose intolerance. Also, obese rats had (a) increased brain weights, and (b) increased volumes of ventromedial and paraventricular hypothalamic nuclei. These findings, perhaps explainable by an increased delivery of nutrients to the developing brain, indicate that the hyperphagia of Zucker rats is due neither to an overt hypothalamic lesion nor to insensitivity to glucose.
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PMID:Sensitivity to satiating and taste qualities of glucose in obese Zucker rats. 401 22

Neuropeptide Y (NPY), a major brain neurotransmitter, is expressed in neurons of the hypothalamic arcuate nucleus (ARC) that project mainly to the paraventricular nucleus (PVN), an important site of NPY release. NPY synthesis in the ARC is thought to be regulated by several factors, notably insulin, which may exert an inhibitory action. The effects of NPY injected into the PVN and other sites include hyperphagia, reduced energy expenditure and enhanced weight gain, insulin secretion, and stimulation of corticotropin and corticosterone release. The ARC-PVN projection appears to be overactive in insulin-deficient diabetic rats, and could contribute to the compensatory hyperphagia and reduced energy expenditure, and pituitary dysfunction found in these animals; overactivity of these NPY neurons may be due to reduction of insulin's normal inhibitory effect. The ARC-PVN projection is also stimulated in rat models of obesity +/- non-insulin diabetes, possibly because the hypothalamus is resistant to inhibition by insulin; in these animals, enhanced activity of ARC NPY neurons could cause hyperphagia, reduced energy expenditure, and obesity, and perhaps contribute to hyperinsulinemia and altered pituitary secretion. Overall, these findings suggest that NPY released in the hypothalamuss, especially from the ARC-PVN projection, plays a key role in the hypothalamic regulation of energy balance and metabolism. NPY is also found in the human hypothalamus. Its roles (if any) in human homeostasis and glucoregulation remain enigmatic, but the animal studies have identified it as a potential target for new drugs to treat obesity and perhaps NIDDM.
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PMID:Neuropeptide Y, the hypothalamus, and diabetes: insights into the central control of metabolism. 747 13

Characteristics are hypotonia, problems with feeding and thriving in the neonate and infant, later hyperphagia and severe obesity. Other findings are dysmorphic traits, hypogonadism, short stature, developmental delay, mental retardation and behavioural problems. Diabetes mellitus (NIDDM) is frequent in adults. Treatment is symptomatic. Prognosis is determined by obesity. PWS occurs almost always sporadically and is found in all ethnic groups and in both sexes. The epidemiology of PWS in Denmark is unknown. In 95% of cases with PWS cytogenetic and molecular genetic investigations show either deletion of the paternal chromosome 15q11q13 or uniparental maternal disomy of chromosome 15. Since 1992 150 bloodsamples of patients suspected for PWS have been investigated by cytogenetic and molecular genetic techniques at the John F. Kennedy Institute, DK-2600 Glostrup; deletion of the paternal chromosome 15 was found in 15 and uniparental maternal disomy of chromosome 15 in eight cases.
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PMID:[Prader-Willi syndrome--clinical picture and genetics]. 772 49

Some genes are expressed differently in earlier and later generations of most cell lines. Many diseases become clinically expressed only later in life, and show clustering of the age at onset in the affected siblings, which may be related to the changing expression with age of the genes involved. Because insulin and its receptor are extremely ancient and well preserved structures with almost universal mitogenic effects, insulin may serve a paradigm of this process. It is suggested that by stimulating cell proliferation, hyperinsulinemia speeds up the appearance of later generations of cells with different expression of the genes. Insulin resistance, accompanying any hyperinsulinemia and considered to be a pathogenetic factor of some common later-age diseases, involves only some biochemical, but not mitogenic effects of the hormone. In humans, high levels of insulin in blood are encountered both physiologically after meals and in many pathological conditions: insulin therapy inevitably causes peripheral hyperinsulinemia; in type 2 diabetes hyperinsulinemia precedes hyperglycemia by many years; hyperinsulinemia is an independent risk factor of atherosclerosis, of type 2 diabetes itself, of some forms of dementia and other diseases; obesity is an obligatory hyperinsulinemic condition. The opposite of hyperalimentation, i.e. calorie restriction (at least, in rodents) may exert its life-prolonging effects through decreasing insulinemia and therefore the rate of cell proliferation. Insulin is only one example, and different mitogens regulate proliferation of different cells. It is likely that growth factors in general accelerating the replication of cells, play a role in speeding up the appearance of later-age diseases involving these cells.
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PMID:Mitogenic factors accelerate later-age diseases: insulin as a paradigm. 966 95

Brain serotonin and leptin signaling contribute substantially to the regulation of feeding and energy expenditure. Here we show that young adult mice with a targeted mutation of the serotonin 5-HT2C receptor gene consume more food despite normal responses to exogenous leptin administration. Chronic hyperphagia leads to a 'middle-aged'-onset obesity associated with a partial leptin resistance of late onset. In addition, older mice develop insulin resistance and impaired glucose tolerance. Mutant mice also responded more to high-fat feeding, leading to hyperglycemia without hyperlipidemia. These findings demonstrate a dissociation of serotonin and leptin signaling in the regulation of feeding and indicate that a perturbation of brain serotonin systems can predispose to type 2 diabetes.
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PMID:Leptin-independent hyperphagia and type 2 diabetes in mice with a mutated serotonin 5-HT2C receptor gene. 977 41

Insulin receptor substrate (IRS)-1 and IRS-2, which mediate phosphatidylinositol (PI) 3-kinase activation, play essential roles in insulin-induced translocation of GLUT4 and in glycogen synthesis. In this study, we investigated the process of PI 3-kinase activation via binding with IRS-1 and -2 in liver, muscle, and fat of high-fat-fed rats, a model of insulin-resistant diabetes. In the liver of high-fat-fed rats, insulin increased the PI 3-kinase regulatory subunit p85alpha and the PI 3-kinase activities associated with IRS-1 3.6- and 2.4-fold, and with IRS-2, 4.7- and 3.0-fold, respectively, compared with those in control rats. The tyrosine phosphorylation levels of IRS-1 and IRS-2 were not significantly altered, however. In contrast with the liver, tyrosine phosphorylation levels and associated PI 3-kinase proteins and activities were decreased in the muscle and adipose tissue of high-fat-fed rats. Thus, high-fat feeding appears to cause insulin resistance in the liver by a mechanism different from the impaired PI 3-kinase activation observed in muscle and adipose tissue. Taking into consideration that hepatic PI 3-kinase activation is severely impaired in obese diabetic models such as Zucker fatty rats, it is possible that the mechanism by which a high-fat diet causes insulin resistance is quite different from that associated with obesity and overeating due to abnormality in the leptin system. This is the first report to show increased PI 3-kinase activation by insulin in an insulin-resistant diabetic animal model. These findings may be important for understanding the mechanism of insulin resistance in human NIDDM, since a high-fat diet is considered to be one of the major factors exacerbating insulin insensitivity in humans.
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PMID:Enhanced insulin-stimulated activation of phosphatidylinositol 3-kinase in the liver of high-fat-fed rats. 989 38

Insulin resistance is central to the pathophysiology of type 2 diabetes. It has been known for some time that down-regulation and reduced kinase activity of the insulin receptor play a role in insulin resistance; however, it has recently emerged that defects in the intracellular responses to insulin are also very important. We studied the molecular basis of insulin resistance in mice in which injection with gold thioglucose led to the development of hyperphagia, obesity and insulin resistance over a 4-month period. We found that the insulin-stimulated activation of MAP kinase was defective in obese, insulin-resistant mice. Similarly, we investigated insulin-stimulated PI3-kinase activation in the isolated soleus muscle of lean and obese mice, and found a marked reduction in the PI3-kinase activation of obese animals. The magnitude of the effect was greater than the reduction in insulin receptor activation, suggesting that impairment of PI3-kinase activation is a very important element in the development of insulin resistance in obese mice. In keeping with this, we found that the defect in PI3-kinase activation developed in young obese mice before the emergence of overt insulin resistance. We investigated different mechanisms by which defects in the components of the insulin signalling cascade could emerge, including down-regulation and abnormal phosphorylation of signal molecules. In adipocytes from young obese mice in which insulin resistance had not yet developed, we found that there were already marked defects in IRS-1 tyrosine phosphorylation. Increased IRS-1 phosphorylation on serine and threonine residues affects tyrosine phosphorylation. Such a process could contribute to the defective IRS-1 tyrosine phosphorylation in insulin-resistant animals. We found that brief exposure of 3T3-L1 adipocytes to platelet-derived growth factor led to IRS-1 serine/threonine phosphorylation through a PI3-kinase-dependent pathway, and that this prevented phosphorylation of the tyrosine residues of IRS-1. Such a mechanism, induced by growth factors, TNF-alpha or some other agent, may play an important role in the development of insulin resistance in obese mice.
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PMID:Molecular mechanisms of insulin action in normal and insulin-resistant states. 1032 50

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