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)

After a 1-h preincubation to remove endogenous insulin, adipose tissue of obese mice (C57BL/L4 ob/ob) had a lower rate of glucose metabolism than tissue which was not preincubated. In contrast, preincubation did not change the metabolism of adipose tissue from lean mice (C57B1/6J +/+). The preincubation effect was abolished in obese mice which had had their serum insulin levels lowered toward normal by streptozotocin treatment. Injection of anti-insulin serum to obese mice caused adipose tissue removed 15 min after the injection to display a rate of glucose metabolsim lower than that of tissue removed before the injection. No such effect was seen in lean mice. These data are consistent with the hypothesis that hyperinsulinemia in the obese mice causes a chronic state of insulin stimulation of their adipose tissue, possibly contributing to their high rates of lipogenesis and their obesity. Several lipogenic enzymes were measured in adipose tissue of both lean and obese mice, and no single enzymatic abnormality was detected which might explain the hyperlipogenesis. Pyruvate dehydrogenase and acetyl-CoA carboxylase were both insulin-sensitive enzymes in lean and obese mice.
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PMID:Does hyperinsulinemia in ob/ob mice cause an insulin-stimulated adipose tissue? 0 75

The development of obesity, hyperinsulinemia and six hepatic lipogenic enzymes in Avy/a mice were compared to that in a/a mice. Correlation between body weight, liver weight, plasma insulin concentration and activities of hepatic enzymes was analyzed. In the Avy/a mice, body weight, liver weight and plasma insulin level increased steadily as the mice aged. In the a/a mice, the change of these three parameters was much slower. Plasma insulin concentration in a/a mice did not increase until eight months of age. Compared with a/a mice, Avy/a mice had higher 6-phosphogluconate dehydrogenase and fatty acid synthetase activities at two months of age; lower citrate cleavage enzyme, glucose-6-phosphate dehydrogenase and 6-phosphogluconate dehydrogenase activities at three months of age; lower citrate cleavage enzyme and glucose-6-phosphate dehydrogenase and higher acetyl CoA carboxylase activities at five months of age; and higher malic enzyme, citrate cleavage enzyme and 6-phosphogluconate dehydrogenase activities at eight months of age. There were significant correlations between plasma insulin level and body weight and between plasma insulin level and the activities of malic enzyme and citrate cleavage enzyme in Avy/a mice. The correlation between body weight and malic enzyme and citrate cleavage enzyme activities disappeared after the analysis was adjusted for plasma insulin level.
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PMID:An analysis of the relationships among obesity, plasma insulin and hepatic lipogenic enzymes in "viable yellow obese" mice (Avy/a). 0 20

The present experiments have tested the hypothesis that ventromedial hypothalamic (VMH) lesions enhance insulin secretion by neural mechanisms. Rats were made diabetic by injecting streptozotocin to destroy their own pancreatic beta-cells. Subsequently, transplants of fetal pancreatic tissue were placed under the renal capsule. VMH lesions were placed in rats whose diabetes was cured with transplants as well as sham-transplanted animals. The animals were followed for 4 wk. The lesioned rats with pancreatic transplants gained no more weight than the sham-operated controls. There was no significant rise in insulin in the transplanted rats after VMH lesioning, but the VMH lesioned rats with intact pancreatic tissue showed the expected rise in insulin. Food intake rose 71% in the VMH lesioned rats with intact beta-cells, but only 23% in the VMH lesioned rats with transplants. Hypertrophy of the pancreatic islets was also observed in the VMH lesioned rats with an intact pancreas, but was not found in the VMH lesioned rats with a transplanted pancreas. Thus, transplantation of pancreatic tissue beneath the renal capsule of diabetic rats prevented the characteristic hyperphagia, hyperinsulinemia, and obesity in VMH lesioned rats whose pancreas was free from intact innervation. The results support the hypothesis that neural mediation of the rise in insulin is the primary factor in the development of hypothalamic obesity.
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PMID:Transplantation of pancreatic beta-cells prevents development of hypothalamic obesity in rats. 10 13

Human obesity is a manifestation of a positive energy balance. A variety of different factors influence this balance. The varieties of human obesity may be classified as follows: 1. Childhood onset with or without an increased number of adipocytes; 2. The syndromes of neuroendocrine dysfunction including hypothalamic obesity, Cushing's disease, and hyperinsulinism; 3. Dietary obesity; 4. Obesity due to physical inactivity; and 5. Genetic forms of obesity. Among the genetic form of obesity are the Laurence-Moon-Bardet-Biedl syndrome. Alstrom's syndrome, and possibly the Prader-Willi syndrome. Studies in experimental animals have increased our understanding of two of these forms of human obesity. These are: 1. Hypothalamic obesity associated with decreased sympathetic activity, hyperphagia and an increased secretion of insulin. Subdiaphragmatic vagotomy can reverse this syndrome; 2. Genetic forms of obesity inherited as recessive or dominant traits.
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PMID:Human obesity and some of its experimental counterparts. 11 2

Glycerokinase activity in isolated fat cells was elevated in both Ob/Ob and Db/Db mice in comparison to their lean controls and this elevation was associated with obesity, hyperinsulinemia and hyperglycemia. In the other forms of acquired and genetic obesity in the rats and mice studied (also associated with hyperinsulinemia), adipose tissue glycerokinase activity was not elevated in comparison to lean control groups when expressed on a mg protein basis. It is concluded that the elevated glycerokinase activity is not due to the specific Db or Ob mutation, but is secondary to the obesity and hyperinsulinemia interacting with the similar genetic background in the C57BL/KsJ and the C57BL/6J mouse strains.
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PMID:Adipose tissue glycerokinase activity in genetic and acquired obesity in rats and mice. 16 46

We have previously shown that in the insulin-resistant obese hyperglycemic mouse (ob/ob) there is a deficiency in the number of insulin receptor sites on hepatocytes, adipocytes, and thymic lymphocytes. We now find that concentration of insulin receptors on liver plasma membranes is decreased in the db/db mouse, another form of inherited obesity, and in normal mice that became obese after treatment with gold thioglucose, while thin mice, heterozygous for the ob mutation (ob/+), have normal insulin binding. With acute and chronic food restriction of the ob/ob and gold thioglucose obese mice, there is reduction in hyperinsulinemia and an associated increase in the insulin receptor concentration toward normal. In contrast, when fasting ob/ob mice were given exogenous insulin to maintain the hyperinsulinemia, insulin receptors failed to increase. Thus, in all cases, there was a consistent relationship between the degree of hyperinsulinemia and of insulin receptor loss. These findings suggest that decreased insulin binding is a characteristic feature of the insulin resistance of obesity, and that sustained hyperinsulinemia is a major factor in the control of the concentration of insulin receptors on target cells.
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PMID:Insulin receptor deficiency in genetic and acquired obesity. 16 96

Using [125I]insulin at 172 pmol/1 (1 ng/ml) the binding of insulin to mononuclear leucocytes isolated from peripheral blood was studied. Our present study comprised 21 healthy subjects (22-33 years old, 90-110% of ideal weight) and a comparable group of 22 obese subjects (20-37 years old, minimum 150% of ideal weight). A significant difference in insulin binding was found between the two groups, the mean specific insulin binding fraction in normals being 1.92 +/- 0.58 (s) X 10(-2) and that for the obese 1.19 +/- 0.41 (s) X 10(-2) (P less than 0.01). No correlation was found between body weight and the number of insulin receptors in the obese subjects. However, the number of insulin receptors was negatively correlated to fat cell size (P less than 0.05). Insulin receptors in subjects were also negatively correlated to fasting plasma insulin (P less than 0.05). Insulin receptors were studied in 11 obese subjects before and after 10 days of fasting. A significant increase in the number of insulin receptors was observed with a simultaneous decrease in plasma insulin to normal values. The results indicate that obesity complicated by hyperinsulinism is associated with a decrease in the number of insulin receptors compared with the normal. This finding may in part explain the decreased insulin sensitivity of the hyperinsulinaemic obese.
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PMID:The insulin receptor in normal and obese persons. 18 73

The occurrence of insulin-degrading activity in the liver of the obese hyperglycemic mouse (ob/ob) and its litter mate has been studied. The trichloroacetic acid-soluble product formed from insulin upon incubation with liver homogenate was identified as the A chain of insulin. In Ouchterlony double-diffusion experiments with antibody to purified rat liver glutathione-insulin transhydrogenase, mouse liver homogenate and the microsomal fraction each gave a single precipitation band of identity with the purified rat liver enzyme. These results indicate that the insulin-degrading activity present in the mouse liver is, in fact, glutathione-insulin transhydrogenase. Subcellular distribution studies of glutathione-insulin transhydrogenase and marker enzymes indicate that the transhydrogenase is located primarily in the microsomal fraction of mouse liver homogenate. The ob/ob mouse, which is a genetic mutant characterized by obesity, hyperinsulinism and resistance to the hypoglycemic action of insulin, contains hepatic glutathione-insulin transhydrogenase activity (per mg microsomal protein) markedly higher (40--60%) than its lean litter mates. However, a major portion of the increased hepatic enzyme in the ob/ob mouse occurs in a latent state; the increased amount of enzyme either is unavailable or is nonfunctional, although the ob/ob mouse still contains more of the functional form than the lean mouse. Thus, the results are consistent with the suggestion that the hepatic glutathione-insulin transhydrogenase is probably under a feedback control by circulating insulin.
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PMID:Insulin degradation. XVIII. On the regulation of glutathione-insulin transhydrogenase in the hyperglycemic obese (ob/ob) mouse. 18 26

At present the two different mechanisms underlying the hypertriglyceridemia of diabetes are reasonably well defined. The rationale of therapy has grown from this knowledge. One form of hyperlipidemia is due to the hyperinsulinemia which results from the patient's resistance to insulin. The approach to treatment aims to overcome the insulin resistance. In most patients this is done by treating their obesity. The other form of hypertriglyceridemia results from insulin deficiency and is treated by bringing the patient's diabetes under control. There is strongly suggestive evidence that hypertriglyceridemia may be associated with a high risk of atherosclerosis. The reason for treating hypertriglyceridemia in general, and in the diabetic in particular, is to reduce this risk. However, it must be conceded that, at the moment, there is no information about the effect of lower triglyceride levels on the incidence of atherosclerosis. Hence much epidemiologic research is needed before our rationale for treatment can move from the realm of hope to the realm of definite proof. In the mean time an attack on this and the other risk factors is the best way we have to attempt to prevent the major complication of diabetes, atherosclerosis.
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PMID:Hyperlipidemia, atherosclerosis, and diabetes. 20 21

Severly obese subjects and sex- and age-matched controls underwnet physical training during a 6-wk period. Evidence of training was shown in all subjects by increased aerobic power. Before training the obese subjects were characterized by the following abberations: decreased glucose tolerance, hyperinsulinemia, elevated blood glycerol and plasma free fatty acids, and a blunted plasma growth hormone response during glucose tolerance. Noradrenaline output was elevated, a finding of potential interest for the explanation of increased lipolysis, blood pressure, and heart size in obesity. With training the following changes were found:In the controls there was evidence for the beginning of a decrease of adipose tissue mass. In the obese, however, body weight, body fat, or fat cell size did not decrease during training. Plasma insulin decreased, and a corresponding increase of plasma glycerol was seen. Glucose tolerance was not changed, and this, together with decreased plasma insulin, indicated an increase insulin sensitivity of the periphery. Changes in noradrenaline or growth hormone during training could not explain this increased sensitivity. Urinary cortisol output was found to decrease after training in the obese; this might be interpreted as a decrease in cortisol secretion allowing a more effective insulin action on the periphery.
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PMID:Physical training in human hyperplastic obesity. IV. Effects on the hormonal status. 31 26


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