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)

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

The authors analyzed the effects of obesity/non-obesity in 162 epidoses of severe metabolic disturbances. Ketoacidosis and hypoglycaemics comas were more frequent in the non-obese group of diabetics, who were often insulin treated; whereas hyperosmolar coma and lactic acidosis were frequent in the obese group of diabetics, usually not treated with insulin. In the obese group both advanced age as well as a higher frequency of degenerative complications impaired the prognosis of these metabolic accidents. However the mortality rate was not significantly different in the two groups of patients. Despite the importance of the weight balance in the natural history of diabetes mellitus, it did not seem to influence the clinical aspects nor did it modify the therapeutic management of the major metabolic disturbances which occur in diabetes.
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PMID:[Major metabolic disturbances occur in diabetic patients whether they are obese or not (author's transl)]. 11 Dec 20

To investigate the role of endogenous insulin on the secretion of immunoreactive gastric inhibitory polypeptide (IR-GIP) the response of IR-GIP and immunoreactive insulin (IRI) to an oral fat load (100 g triglyceride) alone and during an intravenous glucose infusion (0.7 g/kg/h) was examined in normal weight and obese subjects. In normal weight subjects the fat induced integrated rise of IR-GIP was 112.7 +/- 9.4 ng/ml/120 min. When glucose and fat were given together this IR-GIP response was lowered to 46.2 +/- 2.9 ng/ml/120 min while the serum IRI response to i.v. glucose and the glucose tolerance were enhanced by fat ingestion. In obese subjects with normal glucose tolerance the GIP suppressing effect of i.v. glucose infusion was less marked than in controls. The integrated IR-GIP response to fat ingestion was 225.6 +/- 20.3 mg/ml/120 min and to fat plus glucose 152.6 +/- 14.8 ng/ml/120 min. In obese subjects with glucose intolerance i.v. glucose completely failed to lower the exaggerated secretion of IR-GIP following oral fat. Thus, a graded abnormality of the GIP response to glucose induced insulin release occurs in obesity with normal and pathological glucose tolerance. After reducing the ideal body weight of six obese subjects with glucose intolerance by hypocaloric diet for 3 weeks the exaggerated rise of IR-GIP after oral fat was reversed and the lowering effect of i.v. glucose on the IR-GIP response re-established.
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PMID:Impaired feedback control of fat induced gastric inhibitory polypeptide (GIP) secretion by insulin in obesity and glucose intolerance. 11 43

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

To determine whether hyperglycemia in the obese hyperglycemic (ob/ob) mouse is related to enhanced activity of the pancreatic beta cell, streptozotocin (175 mg/kg) was injected into lean and ob/ob mice at 8 wk of age. The influence of this injection upon glucose metabolism, adipose cellularity, pancreatic morphology and immunoreactive insulin (IRI) release from isolated pancreatic islets was measured. The plasma glucose levels before and after an oral glucose load were elevated in lean and decreased in ob/ob mice 2 wk after treatment with streptozotocin. By 5 wk after this treatment, a reduced pancreatic islet size, beta cell number and a decreased pancreatic islet IRI release were present in both lean and ob/ob mice. At this time, plasma glucose was still elevated in lean, but depressed in ob/ob mice and the insulin responsiveness in muscle and adipocytes was unchanged. Hyperglycemia abates in the ob/ob mouse as hypersecretion of insulin is diminished, but these observations may not be directly related, since streptozotocin affects key metabolic activities of the livers as well as the pancreatic beta cell. The progression of obesity and status of adipose cellularity are not directly related to hyper-insulinemia, since they are not altered following streptozotocin treatment.
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PMID:Effects of streptozotocin on glucose metabolism, insulin response, and adiposity in ob/ob mice. 12 52

Primary hypersecretion of insulin has been suggested as one possibility for the genetic fault of ob/ob mice. To test this hypothesis, streptozotocin (SZO) was used to reduce permanently insulin secretion in young lean and obese mice. After establishment of hyperglycaemia and weight reduction in treated obese mice (obese-SZO), daily insulin replacment was begun in some (obese-SZO-Ins). Obese-SZO mice maintained insulin levels and body weights similar to lean controls, though they were shorter and fatter, while food intake and blood sugar levels exceeded lean values. Obese-SZO-Ins mice with reduced islet hyperplasia, but great insulin resistance, gained more weight than obese-SZO mice; had high serum insulin and controlled blood glucose; and exhibited hyperphagia. These results suggest that primary hypersecretion of insulin cannot be the genetic defect, as ob/ob mice are hyperphagic, hyperglycaemic, insulin resistant, and "obese" even when insulin levels are restricted.
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PMID:Effects of long-term restricted insulin production in obese-hyperglycemic (genotype ob/ob) mice. 13 28

Carbohydrate metabolism was studied in eight patients with Down's syndrome, aged 8 to 18 years. Diabetic glucose tolerance was observed in only one patient with obesity. This impaired glucose tolerance was improved with the weight reduction due to diet restriction. The flat glucose tolerance curves with low peak values were also observed in the other two patients. In the remaining five patients, normal glucose tolerance was obtained. Insulin response and free fatty acid levels during oral glucose load were not characteristic except for the diabetic patient with obesity. The sera of Down's syndrome showed normal binding capacity for insulin. These results suggest that obesity might partly participate in the impaired glucose tolerance in Down's syndrome.
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PMID:Carbohydrate metabolism in Down's syndrome. 16 Jun 33

The status of insulin-receptor interactions in a variety of insulin-resistant states is reviewed. Utilizing large adipocytes from adult rats and small fat cells from young rats, we have conducted a series of in vitro experiments in an attempt to determine the cellular alteration(s) responsible for the insulin resistance associated with obesity. Stimulation of glucose oxidation by insulin is reduced in large cells. Studies using a mimicker of insulin action, spermine, as well as measurements of 125I-insulin binding to large and small cells indicate that receptor number and affinity are not responsible for hormone resistance. Furthermore, when rapid and direct measurements of sugar uptake were made, insulin stimulation was virtually identical in both cell types. These findings indicate that large adipocytes have an efficient insulin-responsive D-glucose transport system and suggest that the apparent hormone resistance may be due to alterations in intracellular glucose metabolism. It has been proposed that altered insulin-receptor interaction underlies the insulin resistance of human obesity. We have investigated this particular aspect of insulin action by 125I-insulin binding studies. Similar numbers of insulin receptors per cell and affinity for insulin were observed in adipocytes obtained from normal weight subjects and morbidly obese patients. Thus, the initial step in insulin action is unaltered in human obesity.
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PMID:Relation of insulin receptors to insulin resistance. 16 83

A connecting link between carbohydrate and fat metabolism in adipose tissue is theconcentration of alpha-glycerophosphate derived predominantly from the glycolysis ofglucose entering the fat cell. However, several investigators have reported the presence of a glycerol specific kinase in the epidiymal fat-pad of the rat and obob mouse. This enzyme's presence in other mammalian adipose tissue could contribute to the alpha-glycerophosphate pool and thus affect both carbohydrate and fat metabolism within the fat cell. Glycerokinase was demonstrated in isolated fat cells obtained from the subcutaneous, perirenal, epididymal, and dorsal intrascapular brown fat depots of the adultmale rat. It was found to be particularly sensitive to in vivo lipogenic stimuli in both the subcutaneous and the brown adipose tissue and concluded that insulin is involved in adipose glycerokinase stimulation. Therefore, the main function of glycerokinase in normal adipose tissue may be to augment the anabolic action of insulin. It isfurther suggested that deviation from the normal control of this lipogenic enzyme couldlead to a gradual accumulation of fat and eventual obesity.
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PMID:Glycerokinase in mammalian adipose tissue: stimulation by lipogenic substances. 16 85

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

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