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:C0011849 (diabetes)
277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

CBL/57 strain db/db mice exhibit type II (noninsulin-dependent) diabetes. The affected mice are markedly hyperinsulinemic, hyperglycemic, and hypercholesterolemic, and their serum K+ levels are decreased. The brains of the diabetic mice are significantly smaller than those of their lean, control littermates, but the protein concentration is normal. The low brain weight is accompanied by a loss of major fatty acid components within the whole brain, nerve endings, and mitochondrial membranes. Cholesterol levels are low in whole brain but are not significantly different from normal in the synaptosomal membranes. The phospholipid concentration is significantly decreased in whole brain homogenates, crude synaptosomal membranes, and crude mitochondrial membranes of the diabetic mice. In addition, the specific activities of membrane-bound synaptosomal acetylcholinesterase, Na+,K(+)-ATPase, and Mg(2+)-ATPase are decreased in crude synaptosomal membranes of the diabetic mice. The specific activities of carnitine palmitoyltransferase I and carnitine acetyltransferase are significantly increased in the crude mitochondrial fraction isolated from the brains of the type II diabetic mice, whereas the specific activity of pyruvate dehydrogenase complex is decreased. The specific activities of two other mitochondrial enzymes--monoamine oxidase B and citrate synthase--and a cytosolic enzyme--lactate dehydrogenase--are unaltered. The ability to synthesize cyclic AMP is markedly decreased in the brains of the diabetic mice. The concentrations of carnitine and of the amino acids, glutamate, aspartate, glutamine, and serine are unaltered, whereas glycine levels are significantly elevated in the brains of the db/db mice. The data suggest that in vivo the brains of the diabetic mice exhibit a decreased capacity for glucose oxidation and increased capacity for fatty acid oxidation. This hypothesis is supported by the finding that cerebral mitochondria isolated from the db/db mice oxidize [1-14C]palmitate to 14CO2 at a rate almost twice that of control mitochondria. The present findings emphasize the potentially serious alteration of brain metabolism in uncontrolled type II diabetes.
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PMID:Lipid metabolism and membrane composition are altered in the brains of type II diabetic mice. 772 1

The aim of the present study is to compare normal and tumoral pancreatic islet cells in terms of both the activity of selected cytosolic and mitochondrial enzymes participating to nutrient catabolism and the intrinsic properties of FAD-glycerophosphate dehydrogenase. The activity of the glycolytic enzymes hexokinase and lactate dehydrogenase was higher in tumoral (RINm5F) than normal islet cells. The opposite was seen for glutamate decarboxylase, glutamate-oxaloacetate transaminase, glutamate-pyruvate transaminase, glutamate dehydrogenase, 2-ketoglutarate dehydrogenase and FAD-glycerophosphate dehydrogenase (m-GDH). These findings are consistent with the high rates of glycolysis and protein synthesis seen in tumoral islet cells compared with normal islet cells, which favour mitochondrial oxidative events associated with the catabolism of D-glucose and amino acids. The intrinsic catalytic properties of m-GDH were comparable, albeit not identical, in normal and tumoral islet cells. Since a deficiency of m-GDH in pancreatic islets may represent a contributing factor in the pathogenesis of non-insulin-dependent diabetes, it is proposed that RINm5F cells may readily yield sufficient islet m-GDH for purification and further gene cloning.
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PMID:Activity of cytosolic and mitochondrial enzymes participating in nutrient catabolism of normal and tumoral islet cells. 776 86

UDP-glucose pyrophosphorylase was measured in rat pancreatic islets, the generation of D-glucose 1-phosphate from UDP-glucose and PPI being eventually coupled to the generation of L-[U-14C]glutamate from 14C-labelled alpha-ketoglutarate. The activity of the enzyme was about one order of magnitude lower in islet than liver homogenates. The affinity of the enzyme for either UDP-glucose or PPi was comparable, however, in liver and islets. The activity of UDP-glucose pyrophosphorylase was somewhat lower in islets from animals with inherited or acquired diabetes mellitus than in those from control rats. These findings are considered in connection with the accumulation of glycogen in islets of hyperglycemic animals.
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PMID:Hexose metabolism in pancreatic islets UDP-glucose pyrophosphorylase activity. 780 38

Increased energy substrate metabolism accompanies the functional activation of extrathymic immunocytes in the autoimmune BB diabetic rat, but the specific cells responsible have not been identified. To determine the possible contribution of lymphocytes to the elevated metabolism of glucose and glutamine, mesenteric lymph node cells were selected because they contain few macrophages or natural killer (NK) cells. Results from diabetic (BBd, n = 7) and non-diabetes-prone (BBn, n = 7) rats were compared with those from streptozotocin-induced diabetic (STZ-BBn, n = 6) rats. In BBd cells, all measured metabolites of glutamine (CO2, glutamate, aspartate, and NH3) in the presence of 5 mM glucose were elevated (1.5- to 2.5-fold) compared with BBn. In contrast, the only product of glucose metabolism (in the presence of 2 mM glutamine) that was increased was pyruvate (1.6-fold). All measured products of glucose metabolism were significantly lower in cells from STZ-BBn than from BBn rats. Products from glutamine did not differ. Calculated potential ATP production was greater (p < 0.05) in BBd than in BBn and STZ-BBn cells (86 +/- 5 vs. 65 +/- 2 and 53 +/- 5 nmol.2 h-1 x 10(-6) cells, respectively). However, in BBn and STZ-BBn rats, about three quarters of the cells were T (CD5+) cells and one quarter were B (MARK-1+) cells, whereas in BBd three quarters of the cells were MARK-1+.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Enhanced metabolism of glucose and glutamine in mesenteric lymph node lymphocytes from spontaneously diabetic BB rats. 782 92

The mitochondrial FAD-linked enzyme glycerophosphate dehydrogenase plays a key role in the pancreatic B-cell glucose sensing device. In the present study, the activity of this enzyme was examined in islets of fa/fa rats in which inherited diabetes mellitus is associated with obesity, hyperinsulinism and severe insulin resistance. The specific activity of both FAD-linked glycerophosphate dehydrogenase and glutamate dehydrogenase were decreased in islet and liver homogenates prepared from fa/fa, as compared to Fa/Fa, rats, this coinciding with a low ratio between glutamateoxalacetate and glutamate-pyruvate transaminase activity in both islet and liver extracts, islet hyperplasia, hyperinsulinemia and hepatic steatosis in the hyperglycemic fa/fa rats. It is speculated that a low activity of FAD-linked glycerophosphate dehydrogenase in the pancreatic B-cell may participate to the perturbation of glucose homeostasis in fa/fa rats, like in other animal models of non-insulin-dependent diabetes mellitus.
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PMID:Impaired FAD-glycerophosphate dehydrogenase activity in islet and liver homogenates of fa/fa rats. 783 41

The impact of type 1 diabetes mellitus on liver gamma-glutamyltranspeptidase, a premalignant marker, was studied. Diabetes was induced in male Sprague Dawley and Fischer 344 rats by administration of Streptozotocin, which produced a stable and moderately severe diabetic state. In liver homogenates, gamma-glutamyltranspeptidase was increased over control levels: 1.2, 8.1 and 13.2 fold in Sprague-Dawley rats; 4.8, 58.4 and 84.7 fold in Fischer 344 rats; at 1, 3 and 6 weeks following Streptozotocin treatment. In plasma membranes isolated from the livers of Fischer 344 rats, gamma-glutamyltranspeptidase was increased over control levels: 5.6, 75 and 127 fold at weeks 1, 3 and 6 following Streptozotocin treatment. The relative specific activity of 5'-nucleotidase was found to be similar: 9-14, indicating comparable degrees of plasma membrane purity. Plasma glutamate-pyruvate transaminase levels were minimally and similarly affected at all time points indicating lack of association of increasing gamma-glutamyltranspeptidase activity with overt liver damage. Thyroid hormone replacement, with both T3 (0.6 micrograms/Kg) once a day and T4 (6.0 micrograms/kg) twice a day for three days elicited a further 30% increment in enzyme activity. Insulin replacement (20-40 units/200 g body weight) twice a day for five days reduced enzyme activity 51% at week 6. This was associated with an increase in gamma-glutamyltranspeptidase in the plasma from 14 fold over control levels in the diabetic state at week 6 to 53 fold over control levels after insulin replacement at week 6. It is proposed that the diabetes-induced increase in gamma-glutamyltranspeptidase is reduced by an insulin-directed shedding of the enzyme into the plasma.
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PMID:The impact of type I diabetes on rat liver gamma-glutamyltranspeptidase. 786 3

Glutamic acid dimethyl ester (GME; 3.0-10.0 mM) enhanced insulin release evoked by 6.0-8.3 mM D-glucose, 1.0-10.0 mM L-leucine, or 5.0-10.0 mM 2-amino-bicyclo(2,2,1)heptane-2-carboxylic acid, causing a shift to the left of the sigmoidal relationship between insulin output and D-glucose concentration. In the absence of D-glucose, GME also unmasked the insulinotropic potential of glibenclamide. In islets exposed to L-leucine, the insulinotropic action of GME coincided with an early fall and later increase in 86Rb outflow and augmentation of 45Ca outflow from prelabeled islets. The measurement of O2 uptake, NH4+ output, production of 14CO2 from islets prelabeled with [U-14C]palmitate, generation of 14C-labeled amino acids and 14CO2 from the dimethyl ester of either L-[1-14C]glutamic acid or L-[U-14C]glutamic acid, and D-[2-14C]glucose as well as D-[6-14C]glucose oxidation in the presence or absence of GME indicated that the latter ester was efficiently converted to L-glutamate and its further metabolites. The overall gain in O2 uptake represented the balance between GME oxidation and its sparing action on the catabolism of endogenous fatty acids and exogenous D-glucose. It is proposed that GME might represent a new tool to bypass beta-cell defects in D-glucose transport, phosphorylation, and further metabolism and, hence, to stimulate insulin release in experiments conducted in animal models of non-insulin-dependent diabetes mellitus.
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PMID:Insulinotropic action of glutamic acid dimethyl ester. 794 7

Gamma-aminobutyric acid (GABA) is the main inhibitory neurotransmitter in the CNS, taking part in processes which are now relatively well understood but also in processes which are remarkable progress has been achieved. The most thoroughly studied field of GABA operation is its role of inhibitory neurotransmitter realized through the mediation of GABA-A and GABA-B receptors. There are at least 40 per cent of synaptic inhibitory events in the CNS in which the neurotransmitter action of GABA is involved. The action of GABA on GABA-A receptor, a Cl- channel, is influenced by benzodiazepines, barbiturates and other substances, suggesting that some neurological and psychiatric diseases are connected with the function of GABA-A receptor. In addition to synaptic inhibition, GABA has several metabolic regulatory functions. GABA is produced not only in neurons but also in beta cells of the pancreas and in tubular cells of the kidney cortex. Its role in these parenchymatous cells is not sufficiently understood. Similarly as GABA, glutamic acid decarboxylase (GAD), an enzyme catalysing GABA formation from glutamate, has also been intensively studied. GAD structure, its function in various parts of the CNS and in some parenchymatous cells, and the regulation of GAD activity are still in the focus of interest. Recently GAD has been demonstrated to act as autoantigen in the rare neurological disease "stiff man syndrome" (SMS) and in insulin-dependent diabetes mellitus (IDDM). In the presented paper a short review of GABA functions, GAD properties and of the antigenic feature of GAD are given. (Fig. 7, Ref. 41.)
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PMID:[Gamma-aminobutyric acid and glutamate decarboxylase]. 800 82

Islets were isolated by automatic digestion from non-diabetic cadaveric organ donors and from Type 2 (non-insulin-dependent) diabetic subjects. The activity of FAD-glycerophosphate dehydrogenase, but not that of either glutamate dehydrogenase, glutamate-oxalacetate transaminase or glutamate-pyruvate transaminase, was lower in Type 2 diabetic patients than control subjects. Hexokinase, glucokinase and glutamate decarboxylase activities were also measured in islets from control subjects. The utilization of D-[5-3H]glucose, oxidation of D-[6-14C]glucose and release of insulin evoked by D-glucose were all lower in Type 2 diabetic patients than control subjects. The secretory response to the combination of L-leucine and L-glutamine appeared less severely affected. Islets from Type 2 diabetic patients may thus display enzymatic, metabolic and secretory anomalies similar to those often observed in animal models of Type 2 diabetes, including a deficiency of beta-cell FAD-linked glycerophosphate dehydrogenase, the key enzyme of the glycerol phosphate shuttle.
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PMID:Enzymatic, metabolic and secretory patterns in human islets of type 2 (non-insulin-dependent) diabetic patients. 816 52

A causative factor in the development of diabetes-induced heart dysfunction may be abnormalities in myocardial energy metabolism. Using 13C-NMR spectroscopy, we investigated the effects of experimentally induced diabetes (streptozotocin 65 mg/kg, i.v.) on glucose metabolism and contractile function in the isolated perfused rat heart. Hearts from streptozotocin-treated and untreated control rats were perfused with 11 mM [1-13C]glucose as substrate and 1H-decoupled 13C-spectra recorded for up to 90 min. Incorporation of label from [1-13C]glucose into lactate and glutamate was observed in hearts from control animals, consistent with metabolism through glycolysis and TCA cycle, respectively. Diabetic hearts did not incorporate label into lactate or glutamate. Addition of insulin (0.05 U/ml) to the buffer resulted in the appearance of [3-13C]lactate, although glutamate labeling was not observed. Addition of insulin plus dichloroacetate (2 mM) resulted in incorporation of label from [1-13C]glucose into 2-, 3- and 4-13C-glutamate, indicating glucose entry into the TCA cycle. Addition of insulin, or insulin plus dichloroacetate to control hearts did not alter labeling of either lactate or glutamate. Cardiac function in hearts from the diabetic group was depressed compared to controls and declined significantly over the duration of the experiment. These studies show that concomitant with a decrease in cardiac function, glucose oxidation is profoundly inhibited following the induction of diabetes with streptozotocin. These observations are consistent with a combination of decreased glucose transport and a decrease in pyruvate dehydrogenase activity.
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PMID:A 13C-NMR study of glucose oxidation in the intact functioning rat heart following diabetes-induced cardiomyopathy. 826 54


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