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)

Early renal hypertrophy of diabetes is associated with increases in the tissue content of RNA, DNA, and sugar nucleotides involved in the formation of carbohydrate-containing macromolecules. We have previously reported an increase in the activity of enzymes of the de novo and salvage pathways of purine synthesis in early diabetes; the present communication explores the changes in the pathways of pyrimidine synthesis. Measurements have been made of key enzymes of the de novo and salvage pathways at 3, 5, and 14 days after induction of diabetes with streptozotocin (STZ), phosphoribosyl pyrophosphate (PPRibP), and some purine and pyrimidine bases. Carbamoyl-phosphate synthetase II, the rate-limiting enzyme of the de novo route, did not increase in the first 5 days after STZ treatment, the period of most rapid renal growth; a significant rise was seen at 14 days (+38%). Dihydroorotate dehydrogenase, a mitochondrial enzyme, showed the most marked rise (+147%) at 14 days. The conversion of orotate to UMP, catalyzed by the enzymes of complex II, was increased at 3 days (+42%), a rise sustained to 14 days. The salvage route enzyme, uracil phosphoribosyltransferase (UPRTase), showed a pattern of change similar to complex II. The effect of the decreased concentration of PPRibP on the activities of CPSII, for which it is an allosteric activator, and on activities of OPRTase and UPRTase, for which it is an essential substrate, is discussed with respect to the relative Ka and Km values for PPRibP and the possibility of metabolite channeling.
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PMID:Pyrimidine nucleotide synthesis in the rat kidney in early diabetes. 172 7

The effect of acute hyperglycemia on glucose metabolism in skeletal muscles was assessed during replacement insulin infusion in 11 patients with insulin-dependent diabetes mellitus (IDDM). With a primed continuous [3-3H]glucose infusion and indirect calorimetry, glucose metabolism was assessed during a basal period (plasma glucose [PG] 5 mM) and during a hyperglycemic period (4-h i.v. glucose infusion, PG 12.1 mM). Biopsies were taken from the vastus lateralis muscle during both periods. On a control day, glucose metabolism was assessed in 10 patients during a basal period (PG 5.2 mM) and after 4 h with no glucose infusion (PG 4.2 mM). Nonoxidative glucose disposal increased during hyperglycemia (32 +/- 7 vs. 51 +/- 9 mg.m-2.min-1, P less than 0.05), whereas glucose oxidation remained constant. On the control day, nonoxidative glucose disposal decreased from the basal to the second (control) period (33 +/- 7 vs. 22 +/- 6 mg.m-2.min-1, P less than 0.05), and glucose oxidation remained constant. The activity of glycogen synthase in muscle biopsies (fractional velocities [0.1 and 10 mM glucose 6-phosphate (G6P)]) decreased slightly during hyperglycemia (18 +/- 2 vs. 12 +/- 2%, P less than 0.05) and on the control day (26 +/- 4 vs. 20 +/- 3%, P less than 0.05). Hyperglycemia increased the intracellular concentration of free glucose, corrected for estimated extracellular glucose (0.56 +/- 0.11 vs. 1.43 +/- 0.19 mM, P less than 0.01), G6P (0.14 +/- 0.04 vs. 0.23 +/- 0.08 mM, P less than 0.02), and lactate (2.88 +/- 0.33 vs. 4.46 +/- 0.61 mM, P less than 0.05), whereas these substrate concentrations remained constant on the control day.(ABSTRACT TRUNCATED AT 250 WORDS)
Diabetes 1992 Feb
PMID:Effect of acute hyperglycemia on glucose metabolism in skeletal muscles in IDDM patients. 173 6

Aldose reductase is the first enzyme in the polyol pathway and catalyses the NADPH-dependent reduction of D-glucose to D-sorbitol. Under normal physiological conditions aldose reductase participates in osmoregulation, but under hyperglycaemic conditions it contributes to the onset and development of severe complications in diabetes. Here we present the crystal structure of pig lens aldose reductase refined to an R-factor of 0.232 at 2.5-A resolution. It exhibits a single domain folded in an eight-stranded parallel alpha/beta barrel, similar to that in triose phosphate isomerase and a score of other enzymes. Hence, aldose reductase does not possess the expected canonical dinucleotide-binding domain. Crystallographic analysis of the binding of 2'-monophospho-adenosine-5'-diphosphoribose, which competitively inhibits NADPH binding reveals that it binds into a cleft located at the C-terminal end of the strands of the alpha/beta barrel. This represents a new type of binding for nicotinamide adenine dinucleotide coenzymes.
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PMID:Novel NADPH-binding domain revealed by the crystal structure of aldose reductase. 173 86

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

The protective effect of phosphate binder (PB) on nephropathy was examined in spontaneously hypertensive rats with non-insulin-dependent diabetes mellitus (NIDDM) fed a high-protein diet. The rats were treated with vehicle or streptozocin neonatally. After 14 weeks, all rats were fed a high-protein diet (50% protein content), and in half of the diabetic rats the diets were supplemented with PB. At 24 weeks, the urinary excretion rate of albumin and kidney weight increased in diabetic rats, but decreased or tended to decrease in diabetic rats treated with PB. The elevation of urinary excretion rate of N-acetyl-beta-D-glucosaminidase, probably due to protein load, was also abolished with PB.
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PMID:Phosphate depletion with phosphate binder arrests the development of nephropathy in spontaneously hypertensive rats with non-insulin-dependent diabetes mellitus fed a high-protein diet. 177 37

Sorbitol-3-phosphate (S3P) and fructose-3-phosphate (F3P) are novel phosphorus compounds recently discovered and identified in the crystalline lens as well as other tissues. These phosphates increased with diabetes progression in streptozotocin-diabetic rat lenses. Treatment of these rats with an orally administered aldose reductase inhibitor eliminated S3P and intramuscularly injected insulin obliterated F3P. These results indicate that enzymes catalyzing S3P and F3P formation co-activate with aldose reductase activation and hyperglycemia, respectively.
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PMID:The effect of insulin and aldose reductase inhibition on the phosphate metabolism of streptozotocin-diabetic rat lens. 178 17

Isotopic discrimination in reaction velocity may affect to a variable extent the estimation of metabolic flow when a metabolic intermediate is catabolized by two pathways with different degrees of discrimination. This was explored in erythrocytes exposed to 14C- or 3H-labelled D-glucose in the absence or presence of menadione. In the absence of menadione, when the pentose phosphate pathway accounted for only 5% of the D-glucose 6-phosphate turnover, the oxidation of C1-protonated or C1-deuterated D-[U-14C]glucose and D-[1-14C]glucose, mixed with the homologous non-radioactive D-[1-1H]glucose or D-[1-2H]glucose, indicated that, relative to the phosphorylation of the hexose, C1-deuterated D-glucose was less efficiently converted to 14CO2 than C1-protonated D-glucose. Moreover, in the absence of menadione, non-deuterated D-[U-14C]glucose and D-[1-14C]glucose were more efficiently oxidized in cells exposed to D-[1-2H]glucose rather than D-[1-1H]glucose. In the presence of menadione, which increased more than ten-fold the flow rate through the pentose phosphate pathway, the phenomenon of isotopic discrimination was either revealed or masked. These data indicate that the phenomenon of isotopic discrimination may indeed affect to a variable extent the estimation of a given metabolic flow.
Diabetes Res 1991 Jun
PMID:Variable expression of isotopic discrimination in metabolic flows. 181 12

The fate of D-[2-3H] glucose and D-[5-3H] glucose in pancreatic islets was simulated in models with or without enzyme-to-enzyme tunnelling of hexose 6-phosphates in the glycolytic cascade. Satisfactory values for the recovery of phosphoglucoisomerase activity, for the ratio between unlabelled D-glucose 6-phosphate and D-fructose 6-phosphate, and for the time course of both 3HOH production from D-[2-3H] glucose and tritiated D-fructose 1,6-bisphosphate generation from D-[5-3H] glucose were only reached in models with enzyme-to-enzyme tunnelling, with emphasis on the coupling between phosphoglucoisomerase and phosphofructokinase.
Diabetes Res 1991 Jan
PMID:Hexose metabolism in pancreatic islets (time course of 3HOH production from tritiated D-glucose in models with and without enzyme-to-enzyme tunnelling). 181 93

Calcium metabolism was studied in patients with diabetes mellitus. Information on the dietary intake of major nutrients was gathered from 23 non-insulin-dependent diabetic patients, 42 insulin-dependent diabetic patients and 245 nondiabetic patients under hemodialysis through a questionnaire. A calcium absorption test was performed, using an isotopic technique, in 11 non-insulin-dependent diabetic patients and 4 age-matched healthy subjects. Parathyroid function was examined, using oral phosphate loading, in 6 diabetic patients and 6 age-matched control subjects. The daily dietary intake of calcium in the non-insulin-dependent diabetic patients (602 +/- 52 mg) was up to the average daily nutritional requirement (600 mg). The calcium absorption rate in these patients (54.4 +/- 13.9%) was similar to that in the healthy subjects (50.1 +/- 5.4%). The response of parathyroid hormone to phosphate loading was significantly reduced in the diabetic patients compared to the control subjects. The results suggest that calcium homeostasis in diabetic patients with normal renal function is almost conserved, despite the decreased response of parathyroid hormone to phosphate loading.
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PMID:Calcium metabolism in diabetes mellitus. 182 Apr 45

A mathematical model is designed for the metabolism of D-glucose in erythrocytes under conditions in which the flux through the pentose phosphate pathway accounts for either 5% or 75% of the rate of D-glucose phosphorylation, as indeed observed in the absence or presence of menadione. This model allows to compare the fate of D-[1-1H]glucose and D-[1-2H]glucose, taking into account the isotopic discrimination towards the deuterated hexose in the reactions catalyzed by phosphoglucoisomerase and glucose-6-phosphate dehydrogenase. The study of this model is extended to the fate of tracer amounts of either D-[1-14C]glucose, D-[U-14C]glucose or D-[1-3H]glucose mixed with non-radioactive D-[1-1H]glucose or D-[1-2H]glucose. The fates of D-[1-14C, 1-2H]glucose and D-[U-14C, 1-2H]glucose in this model are also examined. A fair agreement between the data derived from the mathematical model and prior experimental findings is observed, at least as far as the fate of 14C-labelled D-glucose is concerned. The present study illustrates, therefore, the mechanism by which unequal isotopic discrimination in different enzymatic reactions may cause severe misjudgment of metabolic flow when using deuterated and/or tritiated D-glucose as substitute and/or tracer for the protonated hexose.
Diabetes Res 1991 Sep
PMID:Modelling of isotopic discrimination in intact cells. 182 43


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