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)

The activation state of branched-chain alpha-keto acid dehydrogenase (BCDH) was studied in rat hindlimb muscles during starvation and insulinopenic diabetes, conditions in which circulating branched-chain amino acids (BCAA) are increased and their oxidation is accelerated. Muscle BCDH is predominantly inactive (phosphorylated) in postabsorptive rats but is activated by increased circulating leucine. Diabetes (streptozotocin-induced and spontaneous BB/W) increased circulating BCAA four- to fivefold and BCDH activity approximately threefold. Insulin treatment caused near normalization of circulating BCAA without correcting BCDH activity. Adrenalectomy of diabetics decreased (without normalizing) circulating BCAA and BCDH activation. Starvation caused mild, progressive increases in circulating BCAA and significant activation of BCDH only after 4 days. Leucine infusion activated BCDH in muscle but the activation by leucine was markedly blunted by diabetes. In isolated perfused hindlimbs (control and diabetic) insulin did not affect BCDH significantly; perfusion with leucine activated BCDH, and this response appeared blunted in diabetics. Activation of muscle BCDH may contribute to increased BCAA catabolism in diabetes; the blunted activation response to hyperleucinemia may spare BCAA and contribute to their persistent elevation in plasma.
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PMID:Effects of diabetes and starvation on skeletal muscle branched-chain alpha-keto acid dehydrogenase activity. 296 88

Severe muscle wasting is a well-recognized characteristic of untreated insulin-deficient diabetes mellitus, a condition in which leucine turnover and oxidation are accelerated. To ascertain whether a similar circumstance exists in type II diabetes when insulin is present but with reduced efficacy, we investigated leucine turnover and oxidation in five obese type II diabetic women by tracer infusion of L-[1-13C,15N]leucine in the postabsorptive state both before and after intensive insulin therapy. With conventional treatment, the type II diabetic women received 61 +/- 33 (SD) U/day of insulin, and their fasting plasma glucose averaged 194 +/- 41 (SD) mg/dl. Leucine carbon flux (QC), nitrogen flux (QN), and oxidation (C) averaged 6.4 +/- 1.2, 15.6 +/- 4.6, and 1.4 +/- 0.3 mmol/h, respectively. These values were not different from the respective values of 6.6 +/- 1.3, 17.0 +/- 8.3, and 1.0 +/- 0.2 mmol/h in matched obese nondiabetic controls, suggesting that leucine metabolism is not altered in insulin-treated type II diabetics. After a week of intensive insulin therapy in which the same diabetic subjects received 94 +/- 36 U/day of insulin, postabsorptive plasma glucose declined to 117 +/- 26 mg/dl. Leucine QC (6.2 +/- 1.0), QN (14.8 +/- 3.7), and C (1.5 +/- 0.5 mmol/h) were unaltered by the increased insulin therapy. Thus, obese type II diabetics had normal leucine kinetics but were hyperglycemic while receiving conventional insulin therapy. Additional intensive insulin therapy in these diabetic subjects improved plasma glucose but did not alter leucine kinetics.(ABSTRACT TRUNCATED AT 250 WORDS)
Diabetes 1986 Nov
PMID:Leucine metabolism in type II diabetes mellitus. 353 Aug 53

Erythrocyte adhesion to endothelium was measured using human endothelial cells in culture and a radiometric technique. Erythrocyte adhesion was found to be significantly increased in diabetes mellitus and sickle cell anemia. In both diseases the extent of adhesion was correlated with the clinical severity of the disease. Using 3H Leucine radio-labelled reticulocytes or red cells separated by density gradient according to their age it was possible to further investigate the red cell abnormality responsible for increased adhesion. A population of abnormal reticulocytes in sickle cell anemia exhibited a higher adhesion than the whole red cell population. Diabetic dense red cells (old red cells) appeared to be mostly responsible for the increase in erythrocyte adhesion to endothelium observed in diabetes mellitus.
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PMID:[Adhesion of diabetic or sickle cell erythrocyte populations to human endothelium in culture]. 361 46

In vitro catabolism of branched-chain amino acids, leucine and valine, was investigated using diaphragm muscles from normal, streptozotocin-diabetic and overnight fasted rats. Oxidation and transamination of [1-14C] branched-chain amino acids were both stimulated to a similar extent by diabetes or fasting, when diaphragms were incubated with glucose. Transamination of leucine and valine was increased when diaphragms were incubated with pyruvate; stimulation of transamination was greatest in diaphragms from diabetic rats. Leucine and valine oxidation by control diaphragms was inhibited by pyruvate while it was unchanged or slightly stimulated in diaphragms from fasted or diabetic rats. Thus diaphragms from diabetic rats oxidized two to threefold more branched-chain amino acids than controls when they were incubated with pyruvate. The specific radioactivity of extracellular alpha-ketoisocaproate (KIC; the product of leucine transamination) produced by diaphragms incubated with [14C]leucine was similar for all groups (fed, fasted, or diabetic) in the presence or absence of pyruvate. Oxidation of [1-14C]KIC by diaphragms from fasted or diabetic rats, incubated with glucose, was the same or less than KIC oxidation by control diaphragms. Incubation with pyruvate inhibited KIC oxidation by control diaphragms to a significantly greater degree than that by diaphragms from diabetic or fasted rats. These data suggest the following Flux through branched-chain amino acid transaminase is limited by the availability of amino group acceptors in diaphragms from normal and overnight fasted rats, and to a greater extent in diaphragms from diabetic rats. Flux through the transaminase may be a major determinant of accelerated branched-chain amino acid oxidation by diaphragms in fasting and diabetes. In diaphragms of fasted and diabetic rats, flux through the branched-chain alpha-ketoacid dehydrogenase complex is resistant to inhibition by pyruvate, which is normally observed in controls.
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PMID:Catabolism of branched-chain amino acids by diaphragm muscles of fasted and diabetic rats. 402 2

Nicotinamide, a poly(ADP-ribose)synthetase inhibitor, protected NMRI mice against alloxan-induced hyperglycemia when given 10 min before, but not 10 min after, the injection of the drug. Pretreatment in vivo with nicotinamide induced hyperglycemia at the time of alloxan injection, and this could account for the protective action of nicotinamide against alloxan diabetes. Exposure of islets to alloxan (2 mM) in vitro caused a marked inhibition of both glucose-stimulated proinsulin biosynthesis and insulin release, and this was not affected by the action of nicotinamide. Alloxan-impaired islet glucose oxidation was partly restored by nicotinamide. The decreased islet content of NADH plus NAD, which was observed after alloxan treatment, could be prevented by nicotinamide. Glucose-stimulated islet oxygen uptake was abolished after treatment with alloxan, and nicotinamide had no protective effect in this process. Leucine (10 mM) plus glutamine (10 mM), however, were still able to evoke an islet respiratory response after alloxan exposure. Alloxan caused an immediate increase in the islet efflux of radiolabeled nucleotides, which was followed after about 5 min by a further increase. This latter increase of the radio efflux was inhibited by the addition of nicotinamide. The inability of nicotinamide to prevent the alloxan-induced impairment of proinsulin biosynthesis, insulin release, and oxygen uptake, together with the failure of nicotinamide to prevent the development of diabetes when given after alloxan, does not support a current hypothesis that the major cytotoxic effect of alloxan is primarily due to DNA damage. The present data suggest that organelles other than the nuclei, e.g., the mitochondria or the plasma membrane, are the primary sites of B-cell injury by alloxan.(ABSTRACT TRUNCATED AT 250 WORDS)
Diabetes 1984 Oct
PMID:Nicotinamide does not protect islet B-cell metabolism against alloxan toxicity. 623 9

Ketone bodies have been suggested to have a protein-sparing effect, since infusion of Na-beta-hydroxybutyrate in man decreases plasma alanine concentrations and urinary nitrogen (N) excretion. To test this hypothesis, six normal postabsorptive volunteers were infused with Na-beta-hydroxybutyrate for 3 h. Rates of glucose, leucine carbon, and alanine appearance and disappearance from the plasma space were traced with [3-3H]glucose, L-[6,6,6-2H3]leucine, and [2,3,3,3-2H4]alanine. Rates of leucine N appearance and disappearance and the rate of transfer of leucine N to alanine were assessed with [15N]leucine. During ketone body infusion, plasma alanine decreased (P less than 0.05), whereas plasma leucine increased (P less than 0.05). Rates of alanine appearance increased (5.3 +/- 0.3 to 7.8 +/- 0.6 mumol/kg X min), but the increase in its rate of disappearance was slightly greater, accounting for the decrease in plasma alanine concentration. Leucine N flux and the rate and percent of leucine N transferred to alanine increased, whereas leucine carbon flux was unchanged. To determine the effect of the alkalemia induced by Na-beta-hydroxybutyrate, four additional subjects were infused with NaHCO3. Alkalemia had no effect on leucine N or carbon flux or on the rate of appearance of alanine, but increased the rate of alanine disappearance, resulting in a decrease in the plasma alanine concentration. Since the rate of appearance of leucine carbon was unaltered during the infusion of Na-beta-hydroxybutyrate, it is unlikely that hyperketonemia per se decreases proteolysis in postabsorptive man.
Diabetes 1983 Mar
PMID:Failure of infused beta-hydroxybutyrate to decrease proteolysis in man. 629 41

Substitution of extracellular Cl- by impermeant isethionate (5 mM residual Cl-) caused a monophasic inhibition of glucose-stimulated insulin release, accompanied by an initial transient increase and a secondary lasting decrease in 86Rb+ efflux from perifused islets. Cl- reintroduction restored insulin release with an overshoot above control values and successively produced a small decrease and a large increase in efflux. Theophylline potentiated the insulinotropic effect of glucose more markedly at low Cl- than at normal Cl-, but did not restore a normal rate of 86Rb+ efflux. Lowering the concentration of Cl- did not alter the effect of glucose, tolbutamide, or arginine on 86Rb+ efflux, but simply shifted the efflux rates to lower values. The first phase of glucose-stimulated insulin release was not modified, but the second phase was inhibited. The insulinotropic effect of tolbutamide was augmented at low Cl- and that of arginine (at 7 mM glucose) was not affected. In incubated islets, the stimulation of insulin release by glyceraldehyde was barely inhibited when Cl- was substituted by isethionate and the marked decrease of the effect of glucose could be prevented by glutamine. In a glucose-free, low Cl- medium, the insulinotropic effect of leucine, arginine, and lysine was inhibited; this inhibition was reversed by glutamine, but not by theophylline. Lowering the concentration of Cl- had no effect on 45Ca2+ influx or efflux in the absence of glucose, did not alter the increase in influx and efflux during the first 5 min of glucose stimulation, but impaired both influx and efflux during the second phase. Leucine-induced 45Ca2+ uptake was inhibited at low Cl- and this inhibition was prevented by glutamine. In conclusion, islet cells possess a Cl- -activated modality of K efflux, which does not seem to play a role in the stimulus-secretion coupling. Since Cl- substitution by an impermeant anion does not inhibit the stimulation of insulin release by all agents, the role of Cl- ions does not appear to be restricted to a chemiosmotic mechanism of exocytosis. No single mechanism explains the multiple changes in B-cell function resulting from the decrease in Cl- concentration, but it is proposed that some of them could result from modifications of intracellular pH.
Diabetes 1983 May
PMID:Chloride modulation of insulin release, 86Rb+ efflux, and 45Ca2+ fluxes in rat islets stimulated by various secretagogues. 634 Nov 24

Neonatal rat islets of Langerhans respond in vitro to prolonged arginine exposure by cellular dissociation and a cell monolayer formation resulting in complete dissolution of the islet structure. This effect is seen at an arginine concentration of 10 mM and a minimum exposure of 8 hr. The dissociated cells remain viable in culture for at least 3 weeks though there is no response to a glucose challenge following the first week. Leucine, another amino acid which initiates hormone release, does not alter islet morphology. The arginine-induced alteration in the islet structure may be due to an effect on the factors which control cellular adhesion.
Diabetes Res 1984 Sep
PMID:Arginine-induced dispersion of cells from neonatal rat islets of Langerhans. 639 91

In vitro perfusion and incubation studies and recent investigations in dogs suggest that branched chain amino acids (BCAA) may be a major source of alanine nitrogen. To determine the contribution of BCAA nitrogen to the formation of alanine in man, seven postabsorptive adults received prime-dose constant infusions of 15N-leucine, L-[6,6,6-2H3] leucine, and L-[2,3,3,3-2H4] alanine; isotopic enrichment was determined in arterialized venous plasma samples by gas chromatography-mass spectroscopy. At substrate and isotope steady state, alanine flux and the rate of 15N alanine appearance were 5.4 +/- 0.3 mumol/kg-min and 32 +/- 2 nmol/kg.min, respectively. Leucine nitrogen flux was significantly greater than that of leucine carbon flux (2.54 +/- 0.25 vs. 1.90 +/- 0.10 mumol/kg.min, respectively; P less than 0.001). The 30% greater flux of leucine nitrogen when compared with leucine carbon suggests significant recycling of the leucine carbon in vivo. The percent of circulating alanine nitrogen derived from leucine was 12.5 +/- 1.5%; however, the rate of leucine nitrogen transferred to alanine was 0.66 +/- 0.05 mumol/kg.min, and represents a minimum of 28% of leucine nitrogen going to alanine. On the basis of these data, together with the percent of alanine and leucine in body protein, only 40% of circulating plasma alanine could come from endogenous protein, whereas 60% is derived from de novo synthesis. In addition, at least 20% of the nitrogen required for alanine synthesis is derived solely from leucine following an overnight fast. Therefore, if the contribution of isoleucine and valine nitrogen is similar to that of leucine, the BCAA may contribute to a minimum of 60% of the nitrogen required for alanine synthesis in postabsorptive man.
Diabetes 1982 Jan
PMID:Branched chain amino acids as a major source of alanine nitrogen in man. 715 24

The effect of diabetes in pregnancy on leucine turnover and oxidation was examined in 12 insulin-dependent diabetic (IDDM) subjects and 12 gestationally diabetic (GDM) subjects during the third trimester of pregnancy. The data were compared with those in normal pregnant women studied during the same time period and reported previously. Eight of the IDDM subjects were on continuous subcutaneous insulin infusion (insulin pump), and four were on conventional twice-daily insulin treatment. Of the GDM group, seven were on insulin therapy and five were on dietary management. Leucine kinetics were quantified using [1-13C]leucine tracer in combination with respiratory calorimetry and measurement of lean body mass using the H2[18O] dilution method. In addition, glucose kinetics were measured in insulin-treated subjects using [6,6(2)H2]glucose tracer. Despite rigorous metabolic control, fasting plasma glucose (IDDM 5.5 +/- 1.9 mmol/L [P < .05], GDM 4.7 +/- 1.3 [P < .01], controls 3.6 +/- .6, mean +/- SD) and hemoglobin A1 ([HbA1] IDDM 7.9 +/- 1.9%, GDM 7.5% +/- 2.1%) levels were higher in diabetic subjects. Although total insulin levels were higher in insulin-treated diabetic subjects, free-insulin concentrations were similar in all groups. Rates of excretion of urinary urea nitrogen and respiratory quotients were also similar. The rate of glucose turnover was lower in insulin-treated subjects compared with normals. Leucine flux, a measure of the rate of protein breakdown, and leucine oxidation were higher in IDDM and insulin-treated GDM subjects. The rate of leucine oxidation was increased in conventionally managed IDDM and insulin-treated GDM subjects.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Leucine kinetics during a brief fast in diabetes in pregnancy. 813 88


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