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)

To investigate the metabolic fates of glutamine in splenocytes from the BB rat with spontaneous immunologically mediated insulin-dependent diabetes, freshly isolated cells were incubated in Krebs-Ringer Hepes buffer with 1.0 mM-[U-14C]glutamine and 0, 4 mM- or 15 mM-glucose. (1) The major products of glutamine metabolism in splenocytes from normal and diabetic rats were ammonia, glutamate, aspartate and CO2. (2) The addition of glucose increased (P less than 0.01) glutamate production, but decreased (P less than 0.01) aspartate and CO2 production from glutamine, as compared with the values obtained in the absence of glucose. However, there were no differences in these metabolites of glutamine at 4 mM- and 15 mM-glucose. (3) At all glucose concentrations used, the productions of ammonia, glutamate, aspartate and CO2 from glutamine were all markedly increased (P less than 0.01) in splenocytes from diabetic rats. (4) Potential ATP production from glutamine in the splenocytes was similar to that from glucose, and was increased in cells from the diabetic rat. (5) ATP concentrations were increased (P less than 0.01) in diabetic-rat splenocytes in the presence of glutamine with or without glucose. (6) Our results demonstrate that glutamine is an important energy substrate for splenocytes and suggest that the increased glutamine metabolism may be associated with the activation of certain subsets of splenocytes in the immunologically mediated diabetic syndrome.
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PMID:Elevated glutamine metabolism in splenocytes from spontaneously diabetic BB rats. 167 65

Localized 1H NMR spectra of human brain in vivo are affected by signal overlap, strong spin-spin coupling, and complex J modulation, and therefore differ considerably from those obtained at higher magnetic fields. This paper deals with the assignment of 1H NMR resonances of cerebral metabolites under the experimental conditions used for human investigations. Conventional 7.0-T FID spectra and 2.0 T localized, short echo time STEAM spectra (TE = 20 ms) of aqueous metabolite solutions are compared to in vivo brain spectra of human volunteers and patients. In addition to singlet resonances from N-acetyl aspartate (NAA), creatines, and cholines, short echo time STEAM spectra exhibit multiplets due to the NAA aspartyl group, glutamate, taurine, and myo-inositol. Enhanced levels of cerebral glutamine are detected in patients with liver cirrhosis. For the first time elevated levels of brain glucose are observed in patients with diabetes mellitus.
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PMID:On the identification of cerebral metabolites in localized 1H NMR spectra of human brain in vivo. 167 88

Metabolism of glutamine (Gln, 2 mM) and glucose (5 mM) was studied in vitro in isolated resident peritoneal macrophages from both normal (BBn) and spontaneously diabetic BB (BBd) rats. The major products from Gln were ammonia, glutamate, CO2 and to a lesser extent aspartate. Glucose decreased (P less than 0.01) the production of ammonia, CO2 and aspartate from Gln by 34-60%, but had no effect on the amount of glutamate accumulated. The major products from glucose were lactate and to a much lesser extent pyruvate and CO2. Gln decreased (P less than 0.01) 14CO2 production from [U-14C]glucose by 19-28%, increased (P less than 0.01) pyruvate production by 35-49%, but had no effect on lactate production. The fraction of glucose metabolized via the pentose phosphate pathway (PC) was less than 5%. There were no significant differences in Gln metabolism between BBn and BBd macrophages. The production of lactate and pyruvate and the flux from glucose into the PC were increased (P less than 0.01) by 2.4, 1.8 and 1.5-fold, respectively, in BBd cells. Increased macrophage glucose metabolism was also observed in diabetes-prone BB (BBdp) rats at 75-80 days but not at 50 days of age. In the presence of both Gln and glucose, potential ATP production from glucose was 2- and 4-times that from Gln, respectively, in BBn and BBd cells. Lactate production was the major pathway for glucose-derived ATP generation. These results demonstrate (a) glycolysis and flux from glucose through the pentose phosphate pathway are enhanced with no alteration in glutaminolysis in BBd macrophages; and (b) glucose may be a more important fuel than Gln for macrophages, particularly in BBd rats. The increased glucose metabolism may be associated with functional activation of the macrophages that have been proposed to be involved in beta-cell destruction and the development of diabetes.
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PMID:Glucose and glutamine metabolism in rat macrophages: enhanced glycolysis and unaltered glutaminolysis in spontaneously diabetic BB rats. 176 69

Tissue culture for one or seven days of pancreatic islets isolated from 21-day old fetal rats was found to be associated with a marked increase in the oxidation of L-(U-14C) glutamine by intact islets and in the activity of both alanine-glutamate and aspartate-glutamate transaminases as well as glutamate dehydrogenase in islet homogenates. This coincided with an increase in the relative amount of mitochondrial DNA. The activities of glucose-phosphorylating enzymes (hexokinase and glucokinase), glyceraldehyde-3-phosphate dehydrogenase and lactate dehydrogenase were less markedly increased during the culture period than those of enzymes involved in amino acid catabolism and located, in part at least, in mitochondria. The combined data suggest that the functional maturation of fetal islets during the culture period is associated with and may be attributable to a preferential maturation of their mitochondria.
Diabetes Res 1990 Apr
PMID:Maturation of fetal rat islet cells in vitro during tissue culture is associated with increased mitochondrial function. 213 6

The beta-cell is unique because its major agonists, i.e., insulin secretagogues, undergo metabolism instead of interacting with a receptor. This perspectives presents the hypothesis that the first part of a metabolic signal of a secretagogue is specific to the secretagogue and the beta-cell and can be envisioned as proximal. The second part, which occurs after transduction to more universal signaling mechanisms, is viewed as distal. Distal signaling and exocytosis in the beta-cell operate the same as in other cells. Aerobic glycolysis is required for glucose-induced insulin release. Because glyceraldehyde, which enters metabolism at the triose phosphates in the glycolytic pathway, is a potent insulin secretagogue but pyruvate, which is metabolized in the mitochondrion, is not an insulin secretagogue, the proximal signal for glucose-induced insulin release originates with an interaction between the central part of the glycolytic pathway and mitochondrial metabolism. The proximal message in leucine-induced insulin release originates with leucine allosterically activating glutamate dehydrogenase, which activates endogenous glutamate metabolism, and by the metabolism of leucine itself. The methyl ester of succinate is a potent experimental insulin secretagogue. It is puzzling why the glucose signal requires the interplay of glycolysis and mitochondrial metabolism, whereas the signals from leucine and succinate originate entirely from within the mitochondrion. Leucine-induced insulin release is suppressed and glucose-induced insulin release is activated in islets cultured at a high concentration of glucose. Conversely, leucine-induced insulin release is activated and glucose-induced insulin release is suppressed in islets cultured at low glucose.(ABSTRACT TRUNCATED AT 250 WORDS)
Diabetes 1990 Dec
PMID:Elusive proximal signals of beta-cells for insulin secretion. 224 73

Chronic diabetes induced by the injection of streptozotocin in male and female albino adult rats provoked significant alteration of liver mitochondrial function 30 or 35 days after administration of the drug. Thus, we obtained mean values of respiratory control (RC) and state 3 (S3) with 3-hydroxybutyrate as substrate 40 or 50% lower than those of non-diabetic animals. With other substrates (malate-glutamate, succinate) the decrease of RC and S3 in the diabetic animals was 20% or 30% of the normal mean values. The osmotic damped oscillations of mitochondria were measured as another parameter of the organella function. It was assayed with valinomycin as K+ ionophore and succinate as substrate. In diabetic rats of both sexes we found a significant increase of the mean damping factor of these oscillatory variations compared with normal values. The above-mentioned results indicate a lesser elasticity and an impaired K+ transport of mitochondria across the inner membrane in diabetic animals. Both reported parameters, respiration and oscillatory variations of liver mitochondria, were measured in normal non-diabetic rats and in the groups of diabetic rats referred to as follows: 1) intact (male and female), 2) gonadectomized (male and female), 3) oophorectomized with restitution of 17 beta-estradiol. Ovariectomized diabetic rats showed a significant increase in the values of the RC and S3 of liver mitochondria compared with intact female diabetic animals. The withdrawal of the ovarian hormone in female diabetic rats significantly decreased the values of the damping factors of the oscillatory mechanism and they were similar to the normal. The restitution of 17 beta-estradiol to oophorectomized diabetic rats resulted in a decrease of liver mitochondrial respiration. The damping factor of liver mitochondria of the oophorectomized diabetic rats treated with the estrogen showed values significantly higher than those of female diabetic animals without the hormone and similar to the values of the intact diabetic female rats. Castration of male rats did not produce any effect upon the liver mitochondrial RC and S3 or upon the mean damping factor of the oscillatory variation either. Then the castration of male diabetic rats did not modify the mitochondrial function. In contrast, the oophorectomy of diabetic animals produced amelioration of mitochondrial respiration and oscillatory behavior. The conclusion is drawn that in female rats the circulating 17 beta-estradiol produced a pernicious effect upon liver mitochondrial function in the experimental diabetic state.
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PMID:Effect in vivo of endogenous sexual hormones upon the liver mitochondrial function compared in male and female diabetic rats. 253 94

13C-n.m.r. spectroscopy was used to determine the metabolic fate of alanine and aspartate in rat and rabbit kidney proximal tubules. The main purpose of the present study was to investigate the effect of streptozotocin-induced diabetes on the influx of 13C label from [3-13C]alanine into the tricarboxylic acid cycle and through the fructose-1,6-bisphosphatase pathway. This influx was calculated from the relative enrichment of 13C in the various glutamate and glutamine carbon atoms. The relative proportion of 13C label which entered the tricarboxylic acid cycle via pyruvate carboxylase relative to the proportion that entered via pyruvate dehydrogenase was 1.92 +/- 0.02 in fed control rats and 2.27 +/- 0.04 in streptozotocin-treated rats. However, streptozotocin-induced diabetes did not significantly affect this ratio in rabbit proximal convoluted tubular cells. Only in rat proximal convoluted tubular cells did we observe an increase in flux through the fructose-1,6-bisphosphatase pathway by streptozotocin treatment compared with fed controls. The data suggest that streptozotocin-induced diabetes in rats causes the same metabolic changes as does chronic acidosis.
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PMID:A 13C-n.m.r. investigation of the metabolism of amino acids in renal proximal convoluted tubules of normal and streptozotocin-treated rats and rabbits. 260 95

The early stages of insulin-dependent diabetes mellitus are characterized by a selective inability to secrete insulin in response to glucose, coupled to a better response to nonnutrient secretagogues. The deficient glucose response may be a result of the autoimmune process directed toward the beta-cells. Interleukin-1 (IL-1) has been suggested to be one possible mediator of immunological damage of the beta-cells. In the present study we characterized the sensitivity of beta-cells to different secretagogues after human recombinant IL-1 beta (rIL-1 beta) exposure. Furthermore, experiments were performed to clarify the biochemical mechanisms behind the defective insulin response observed in these islets. Rat pancreatic islets were isolated and kept in tissue culture (medium RPMI-1640 plus 10% calf serum) for 5 days. The islets were subsequently exposed to 60 pM human recombinant IL-1 beta during 48 h in the same culture conditions as above and examined immediately after IL-1 exposure. The rIL-1 beta-treated islets showed a marked reduction of glucose-stimulated insulin release. Stimulation with arginine plus different glucose concentrations, and leucine plus glutamine partially counteracted the rIL-1 beta-induced reduction of insulin release. The activities of the glycolytic enzymes hexokinase, glucokinase, and glyceraldehyde 3-phosphate dehydrogenase, were similar in control and IL-1-exposed islets. Treatment with IL-1 also did not impair the activities of NADH+- and NADPH+-dependent glutamate dehydrogenase, glutamate-aspartate transaminase, glutamate-alanine transaminase, citrate synthase, and NAD+-linked isocitrate dehydrogenase. The oxidation of D-[6-14C]glucose and L-[U-14C]leucine were decreased by 50% in IL-1-treated islets. Furthermore, there was a significant decrease in the ratios of [2-14C]pyruvate oxidation/[1-14C]pyruvate decarboxylation and L-[U-14C]leucine oxidation/L-[1-14C]leucine decarboxylation, indicating that IL-1 decreases the proportion of generated acetyl-coenzyme-A residues undergoing oxidation. However, in the presence of IL-1 there was a significant increase in L-[U-14C]glutamate oxidation. These combined observations suggest that exposure to IL-1 induces a preferential decrease in glucose-mediated insulin release and mitochondrial glucose metabolism. This mitochondrial dysfunction seems to reflect an impairment in proximal steps of the Krebs cycle. It is conceivable that the IL-1-induced suppression and shift in islet metabolism can be an explanation for the beta-cell insensitivity to glucose observed in the early phases of human and experimental insulin-dependent diabetes mellitus.
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PMID:Differential sensitivity to beta-cell secretagogues in cultured rat pancreatic islets exposed to human interleukin-1 beta. 266 6

To assess the effects of insulin in stable coronary artery disease (CAD), 2 U i.v. insulin was given to 9 control and 10 CAD patients during coronary sinus catheterization. Hemodynamic and metabolic data were obtained before and for 90 min after insulin injection. Insulin induced no changes in heart rate, mean aortic pressure, rate-pressure product, coronary sinus flow, or coronary resistance. Metabolic changes were similar in both groups and included 1) 30% decrease of arterial glucose (P less than .001) and 3-fold increase of myocardial glucose uptake (P less than .001), 2) 1.5- to 2.5-fold elevation of arterial lactate (P less than .001) and myocardial lactate usage (P less than .001), respectively, 3) 50-70% suppression of arterial levels (P less than .001) and myocardial uptake of free fatty acids (P less than .01), and 4) 10% reduction of myocardial net oxygen consumption (P less than .05). Myocardial citrate efflux increased in the CAD patients (P less than .05), whereas alanine release rose only in control patients (P less than .01), suggesting that glucose enters glycogen production in the CAD patients and pyruvate production in the control patients to a high degree. Myocardial glutamate uptake remained unchanged. In conclusion, insulin sensitivity was not altered in CAD. The insulin-induced shift from myocardial free fatty acid to carbohydrate usage may be beneficial to the ischemic heart by increasing glycogen stores, saving oxygen, and inhibiting an excess free-fatty acid concentration, which may be toxic during ischemia.
Diabetes 1989 Sep
PMID:Cardiac metabolic and hemodynamic effects of insulin in patients with coronary artery disease. 267 Jun 46

The mouse adipsin gene encodes a member of the serine protease family that is expressed predominantly in adipose tissue and is secreted into the bloodstream. Adipsin expression is sharply down-regulated in several models of genetic and acquired obesity, representing the first example of an adipocyte gene whose expression is greatly altered in this disorder. In this study, we have asked whether a DNA fragment from the adipsin gene can direct tissue-specific expression of a heterologous gene and mediate the suppression of this expression in genetic and chemically induced obesity. Transgenic mice have been constructed with 950 bases of DNA from the 5' flanking region of the adipsin gene linked to the bacterial chloramphenicol acetyltransferase (CAT) gene in a mouse strain bearing a recessive obesity gene (diabetes, db). By crossing db/+ transgenic mice with nontransgenic db/+ mice, we obtained progeny that allowed a direct comparison of CAT expression in the tissues of lean and obese littermates. The lean mice express CAT activity predominantly in adipose tissue, while the obese mice show a marked reduction in CAT expression relative to the lean controls. When similar experiments are performed with an adipsin-CAT fusion gene containing a heterologous AKV (AKR mouse leukemia virus) enhancer, the tissue specificity of CAT expression in lean mice is broadened to include the thymus, spleen, brain, and other tissues; down-regulation occurs in all of these tissues in mice homozygous for the obesity gene or in mice that have been injected with monosodium glutamate (MSG), which induces obesity. These results indicate that 950 bases of the 5' flanking region of the adipsin gene carry information that specifies both expression in adipose tissue and a response to a gene or chemical that induces obesity. These results also suggest that the trans-acting factors that are regulated aberrantly in these forms of obesity are not restricted to adipose tissue and could play a role in obesity-linked dysfunctions observed in other tissues as well.
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PMID:Obesity-linked regulation of the adipsin gene promoter in transgenic mice. 279 20


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