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)

Changes in body weight, concentrations of urine glucose, blood glucose, plasma insulin and FFA and hepatic enzyme activities were investigated in KK and C57BL mice treated with monosodium-L-aspartate (MSA). MSA was administered subcutaneously to neonates at a dose of 4 mg/g body weight. The MSA-treated KK and C57BL mice were remarkably obese at 10 weeks of age. The average plasma insulin concentration in the control KK mice was 73.6 microU/ml, over 4 times higher than in the control C57BL mice. In the control KK mice, hepatic glucokinase (GK) activity was quite low, and fructose-1,6-bisphosphatase (FBP) and acetyl-CoA carboxylase (CBX) activity was much higher than in the control C57BL mice. In the MSA-treated KK and C57BL mice, the plasma insulin concentration increased to 2 to 3 times higher than in the controls. The MSA-treated C57BL mice showed an increase in GK and CBX activity and acceleration of obesity. In the MSA-treated KK mice, GK activity did not change and CBX activity decreased, and only FBP activity increased significantly. Glycosuria was induced and blood glucose and plasma FFA increased remarkably in all MSA-treated KK mice.
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PMID:Alteration of hepatic enzyme activities in obese KK mice treated with monosodium aspartate. 810 5

The present study evaluated the involvement of glucose transport and phosphorylation in glucose-stimulated insulin release from pancreatic islets. Using quantitative histochemical techniques, we investigated basal islet glucose content, islet glucose uptake in situ during acute extreme experimental hyperglycemia, and islet glucokinase activity in several animal models of diabetes and obesity. The basal islet glucose content in anaesthetized diabetic or obese rodents was either the same or higher than that in their relevant controls. The rate of glucose uptake of islet tissue in these animals after an i.v. glucose injection was different. The db+/db+ mouse and the obese Zucker rat exhibited significantly reduced islet glucose uptake rates. RIP-cHras transgenic mice, BHE/cdb rats and partially pancreatectomized rats showed normal islet glucose uptake rates. The activity of islet glucokinase was increased to a different degree related to the blood glucose level. All five animal models of diabetes or obesity exhibited either a delay or a reduction of insulin release in response to supra maximal glucose stimulation. Our results indicate that the impairment of glucose-induced insulin release in diabetes is not consistently associated with a reduction of islet glucose uptake nor a change of glucokinase activity.
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PMID:In situ glucose uptake and glucokinase activity of pancreatic islets in diabetic and obese rodents. 820 Sep 83

Type 2 diabetes is likely to be a polygenic disease, with a combination of major and minor genes affecting obesity, insulin secretion, and insulin action. Amongst these inputs, the 'thrifty genotype' hypothesis is most likely to apply to the predisposition to develop obesity, since the ability to store scarce fuels in periods of starvation could lead to obesity given a western lifestyle. Other genetic variations that were neutral with respect to food deprivation could be harmful with food excess. These could include 'defects' in islet cell function: examples could be mutations in the glucokinase gene and the genetic factors leading to amyloid deposition. The occurrence of associated lipid abnormalities or hypertension is probably due to additional specific genetic determinants that also become exaggerated by a modern lifestyle. The interactions between different genetic and environmental inputs are complex, and will probably be elucidated piecemeal as different genetic determinants are identified.
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PMID:Complex genetics of type 2 diabetes: thrifty genes and previously neutral polymorphisms. 821 Feb 95

1. Groups of lean and obese-diabetic (NIDDM) congenic male SHR/Nutl parallel-cp rats were fed a nutritionally adequate, high carbohydrate diet ad libitum with or without the alpha-glucosidase inhibitor miglitol (150 mg/kg diet) from 8 until 15 weeks of age, and key glycemic parameters were monitored throughout the study. 2. Miglitol treatment resulted in clinical improvement toward normal in percent glycosylated hemoglobin, glycemic and insulinogenic responses to an oral glucose tolerance, and in liver glucokinase activity, in concert with modest decreases in weight gain in obese rats. 3. These observations are consistent with improved insulin sensitivity in peripheral tissues following miglitol treatment, and indicate that this drug may be a useful adjunct to diet in the treatment of obesity, NIDDM, and possibly other disorders of carbohydrate metabolism.
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PMID:The effects of the intestinal glucosidase inhibitory BAY M 1099 (miglitol) on glycemic status of obese-diabetic rats. 848 29

The hypothesis that a defect in glucose sensing by islets of fa/fa Zucker rats contributes to hyperinsulinemia in these animals was tested. Islets from lean and fa/fa rats were isolated by collagenase digestion and step-density gradient purification and then cultured overnight in Dulbecco's modified Eagle's medium containing 12.5 mM glucose. Obese rat islets were more sensitive to hypoglycemic glucose levels with half-maximal effective concentration (EC50) of 5.6 mM compared with an EC50 of 8.2 mM for lean rat islets. In contrast, responsiveness of both phenotypes to alpha-ketoisocaproate and quinine was similar. Mannoheptulose did not inhibit insulin secretion from fa/fa islets, although inhibitors of later events in the stimulus-secretion coupling pathway were normally inhibited by iodoacetate and diazoxide. Finally, starvation in vivo and culture of islets in low glucose concentrations (5 mM) in vitro both decreased glucose-stimulated insulin secretion from lean but not fa/fa rat islets. We conclude that fa/fa rat islets have an exaggerated insulin response to hypoglycemic stimuli, possibly as a result of a defect in B-cell glucokinase function.
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PMID:Evidence for defective glucose sensing by islets of fa/fa obese Zucker rats. 851 32

NIDDM is a heterogeneous disease and subgroups of NIDDM include MODY (Maturity Onset Diabetes of the Young), Malnutrition-related diabetes (MRDM) and Fibrocalculus pancreatic diabetes (FCPD). Endocrine cell population is relatively unchanged in NIDDM: B-cells are reduced by up to 30% and A-cells increased by 10%. Islet amyloid is found in 96% of subjects occupying up to 80% of the islet associated with a reduction in B-cells. Amyloid formation is unlikely to cause diabetes but progressive accumulation increases the severity of the disease. Islet amyloid is formed from the islet amyloid polypeptide (IAPP), a normal constituent of B-cells, co-secreted with insulin. The causal factors for IAPP fibrillogenesis are unknown but abnormal synthesis or overproduction could be involved: stimulation of B-cell secretion in NIDDM by obesity, hyperglycaemia or suphonylurea therapy may promote amyloidosis and further aggravate islet pathology. A mutation of the glucokinase gene in MODY leads to diminished B-cell secretion but not amyloid formation. Diabetes and mutations of mitochondrial DNA is associated with poorly developed islet structure. Exocrine pancreatic size is reduced and there is evidence of sub-clinical chronic pancreatitis in NIDDM. In MRDM and FCPD, chronic pancreatitis and exocrine necrosis is associated with reduced insulin secretion. Unlike cystic fibrosis where islet amyloid is present in diabetic individuals, amyloid is absent from subjects with FCPD. Pathological changes in the exocrine and endocrine pancreas in NIDDM results from and contributes to the pathophysiology of insulin secretion in NIDDM.
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PMID:Pancreatic pathology in non-insulin dependent diabetes (NIDDM). 852 18

Adrenalectomy prevents development of obesity and hyperinsulinaemia in obese (fa/fa) Zucker rats, thereby implicating the hypothalamo- pituitary-adrenal axis in the pathogenesis of obesity. In this study glucose-induced insulin secretion and glucokinase activity were investigated in isolated islets from adrenalectomized and control obese and lean female rats. Islets from control fa/fa rats were more sensitive to glucose with a half-maximal effective concentration (EC50) of 6.1 +/- 2.0 mmol. 1(-1) compared with 10.6 +/- 2.7 mmol. 1(-1) for adrenalectomized fa/fa rat islets. Adrenalectomy did not alter the islet sensitivity to glucose in the lean rats (EC50 of 9.4 +/- 1.5 mmol.1(-1) and 9.3 +/- 2.0 mmol. 1(-1) for adrenalectomized and control lean rats respectively). Mannoheptulose did not inhibit insulin secretion from control obese rats; however at concentrations of 1.0 mmol. 1(-1) or more it significantly inhibited glucose-induced insulin secretion in adrenalectomized obese and lean, and control lean rat islets (P < 0.05). In adrenalectomized fa/fa islets the glucokinase Km was increased twofold compared with the control fa/fa rats (9.5 +/- 1.5 mmol. 1(-1) vs 5.0 +/- 1.5 mmol. 1(-1), respectively), but there was no significant change in glucokinase Km in the lean rat islets after adrenalectomy. Mannoheptulose (10 mmol.1(-1) caused a significant reduction in glucose phosphorylation in disrupted islets of adrenalectomized fa/fa and lean, and of control lean rats, but not of control fa/fa rats. These data demonstrate that development of abnormal regulation of glycolysis in pancreatic islet beta cells of fa/fa rats, as indicated by the insulin response to manno-heptulose and glucokinase activity, is dependent on an intact hypothalamo-pituitary-adrenal axis.
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PMID:Effect of adrenalectomy on the development of a pancreatic islet lesion in fa/fa rats. 863 71

Hyperinsulinemia accompanies obesity in human patients and experimental rodent models and exacerbates insulin resistance, but the causes of increased insulin secretion remain obscure. This review examines progress in defining biochemical and molecular beta-cell defects that have elucidated in the past 5 years. Some defects, such as decreased glucose transport, decreased mitochondrial FAD-linked glycerophosphate dehydrogenase activity, and altered anomeric specificity for glucose, become evident only after onset of non-insulin-dependent diabetes mellitus. Thus, these defects are unlikely to play a role in the pathogenesis of hyperinsulinemia in obesity. Other biochemical changes, including increased glucokinase and (or) hexokinase function, increased glucose cycling, and altered regulation of intracellular Ca2+ are present in obese nondiabetic animals and may therefore contribute to development of hyperinsulinemia. Few developmental studies have been performed to correlate onset of defects with environmentally and genetically mediated control mechanisms of beta-cell function. However, the availability of new molecular biology techniques should facilitate identification of factors causing hyperinsulinemia in obesity.
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PMID:beta-cell stimulus - secretion coupling defects in rodent models of obesity. 874 32

Mutations in glucokinase are associated with defects in insulin secretion and hepatic glycogen synthesis resulting in mild chronic hyperglycaemia, impaired glucose tolerance or diabetes mellitus. We screened members of 35 families with features of maturity-onset diabetes of the young for mutations in the glucokinase gene and found 16 different mutations. They included 14 new mutations in the glucokinase gene: 9 missense mutations (A53S, G80A, H137R, T168P, M210T, C213R, V226M, S336L and V367M); 2 nonsense mutations (E248X and S360X); a deletion of one nucleotide resulting in a frameshift (V401del1); a substitution of a conserved nucleotide at a splice acceptor site (L122-1G-->T); and a 10 base pair deletion that removed the GT of the splice donor site and the following eight nucleotides (K161 + 2del10). In addition, we found two previously identified mutations: R186X and G261R. Study of 260 subjects with glucokinase-deficient hyperglycaemia from 42 families with 36 different GCK mutations made it possible to define the clinical profile of this subtype of non-insulin-dependent diabetes mellitus (NIDDM). Hyperglycaemia due to glucokinase deficiency is often mild (fewer than 50% of subjects have overt diabetes) and is evident during the early years of life. Despite the long duration of hyperglycaemia, glucokinase-deficient subjects have a low prevalence of micro- and macro-vascular complications of diabetes. Obesity, arterial hypertension and dyslipidaemia are also uncommon in this form of NIDDM.
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PMID:Identification of 14 new glucokinase mutations and description of the clinical profile of 42 MODY-2 families. 904 84

Diabetes, known since antiquity, has been defined by glycosuria. In 1886, when Minkowski demonstrated that pancreatectomized dogs developed diabetes, the islets of Langerhans became a focus of the search for an active principle culminating in the discovery and the isolation of insulin in 1921 by Banting, Best and Collip. In 1959, the radioimmunoassay of Yalow and Berson solidified the concept of insulin resistance in non-insulin dependent diabetes (NIDDM). In 1971, the insulin receptor was defined as a cell surface protein that initiated the insulin signal transduction cascade. Today, we know that NIDDM accounts for at least 90% of all diabetes worldwide and involves approximately 100 million people. The microvascular complications of NIDDM are the same as for insulin dependent diabetes (IDDM) and are related to the intensity and duration of hyperglycaemia. Further, it is clear from the Diabetes Control and Complications Trial (DCCT) that all microvascular complications can be reduced with intensive control of the blood glucose. Macrovascular disease is also accelerated in NIDDM, including both hypertension and dyslipidemia. The major risk factor for NIDDM are age, obesity, physical inactivity, and genetic background. The earliest features seen in individuals destined to develop NIDDM is insulin resistance, but for hyperglycaemia to ensure there must be a defect in insulin secretion. Thus, insulin resistance defines the prehyperglycaemic phase of NIDDM, but varying degrees of insulin secretory deficiency define the hyperglycaemic phase. Macrovascular risk occurs throughout the lifetime of the individual, whereas microvascular risk ensues with the inception of hyperglycaemia. Tomorrow, we will understand more clearly whether lifestyle changes, such as diet and exercise, or new classes of drugs, can delay or prevent NIDDM. Clinical trials are now beginning to test whether impaired glucose tolerance (IGT) can be delayed or prevented from moving to overt NIDDM. The genetics of NIDDM are under intense study. Mutations in the insulin receptor lead to NIDDM in a small number of patients, and mutations in the glucokinase gene lead to maturity onset diabetes of the young (MODY). Work is now underway to study other candidate genes as well as work on positional cloning techniques to identify diabetes genetic loci. The hormone Leptin has just been discovered and is a major regulator of body weight. In summary, the most important new emphasis on the treatment of NIDDM is the recognition of the importance of hyperglycaemia and our ability to both treat and possibly prevent this metabolic perturbation. This joins the longer-term emphasis on cardiovascular risk reduction from both treatment and prevention of hypertension and dyslipidemia.
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PMID:Non-insulin dependent diabetes--the past, present and future. 928 27


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