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)

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

Amino acid concentrations in whole blood, liver, kidney, skeletal muscle, and brain were measured and arteriovenous differences calculated for head, hindlimb, kidney, gut, and liver in control and streptozotocin-diabetic rats. In the control rats, glutamine was released by muscle and utilized by intestine, intestine released citrulline and alanine, liver removed alanine, and the kidneys removed glycine and produced serine. In diabetic rats, the major changes from the pattern of fluxes seen in the normal rat were the release of many amino acids from muscle, with glutamine and alanine predominating, and the uptake of these amino acids by the liver. Glutamine removal by the intestine was suppressed in diabetes, but a large renal uptake of glutamine was evident. Branched-chain amino acids were removed by the diabetic brain, and consequently, brain levels of a number of large neutral amino acids were decreased in diabetes.
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PMID:Interorgan metabolism of amino acids in streptozotocin-diabetic ketoacidotic rat. 640 31

The activity of phosphate-activated glutaminase was increased in the kidney, liver and small intestine of rats made diabetic for 6 days with injection of streptozotocin (75 mg/kg body wt.). Insulin prevented this increase in all three tissues. Treatment with NaHCO3, to correct the acidosis that accompanies diabetes, prevented the increase in renal glutaminase activity, but not that in liver or small intestine. Chemically induced acidosis (NH4Cl solution as drinking water) or alkalosis (NaHCO3 solution as drinking water) increased and decreased, respectively, glutaminase activity in the kidney, but were without significant effect on the activity in liver and small intestine. The increase in glutaminase activity in the small intestine during diabetes was due to an overall increase in the size of this organ, and was only detectable when activity was expressed in terms of whole organ, not mucosal scrapings or isolated enterocytes. Prolonged diabetes (40 days) resulted in an even greater increase in the size and glutaminase activity of the small intestine. Despite this marked increase in capacity for glutamine catabolism, arteriovenous-difference measurements showed a complete suppression of plasma glutamine utilization by the small intestine during diabetes, confirming the report by Brosnan, Man, Hall, Colbourne & Brosnan [(1983) Am. J. Physiol. 235, E261-E265].
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PMID:The regulation of phosphate-activated glutaminase activity and glutamine metabolism in the streptozotocin-diabetic rat. 650 57

Blood-borne free amino acids of 100 mothers were tested immediately after birth. Fifty of the probands had diabetes, while the other 50 were metabolically intact. Amino acid imbalance was recorded by means of multidimensional variance analysis from the diabetics and found to have been largely associated with glutamic acid threonine, alanine, glycine-serine, and glutamine.--A formula, derived from the aforementioned relevant amino acid concentrations, is given in this paper together with a nomogram (which might be used instead of the formula) for determination of diabetes-caused alterations in the amino acid spectrum
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PMID:[Amino acid imbalances in blood of pregnant women with diabetes and in blood of their newborns--limit values for screening (author's transl)]. 681 May 83

The free amino acid content of diaphragm muscles of control and diabetic rats was studied 5 days after the injection of streptozotocin. Muscles were prepared for analysis either immediately after sacrifice or following incubation in balanced salt solution containing 5.5 mM glucose, with or without an electron acceptor, 0.02 mM methylene blue. Diaphragms of diabetic rats contained significantly more free taurine, glutamate, and branched chain amino acids than the controls at sacrifice, and significantly less glutamine, serine, asparagine, lysine, arginine, histidine, threonine, citrulline, and carnosine. Alanine decreased in plasma of diabetic rats but not in diaphragms before incubation. Hemidiaphragms of diabetic rats produced less alanine and more glutamate during incubation than controls. After incubation they contained less than half as much alanine and glutamine and twice as much glutamate than the controls, having released approximately 40% less alanine and 25% more glutamate into the medium than the controls. Glutamine release was not significantly different between the two groups. Methylene blue increased the free alanine content in the tissue water as well as alanine release by control and by diabetic muscles; the glutamate content of muscles decreased concomitantly. The effects of methylene blue were greater in the diabetic group. Branched chain amino acid release by diabetic muscles decreased during incubation with methylene blue. Muscles of diabetic rats contained more alpha-ketoglutarate than the controls after incubation with or without methylene blue. Methylene blue increased the alpha-ketoglutarate content of muscles and its release into the medium, the effect being greater in diabetics than in controls. Hemidiaphragms from diabetic rats released less pyruvate during incubation than controls, while lactate release by the two groups was not significantly different. Incubation with methylene blue caused a marked increase in pyruvate release by diabetic muscles, and a lesser stimulation in controls; lactate release increased in both groups. After incubation the lactate/pyruvate ratio in muscles was lower in the methylene blue treated group. The in vitro effect of 0.02 mM phenazine methosulfate on alanine production was similar to that of methylene blue. The data is compatible with the hypothesis that the NADH/NAD ratio may exert a restraining effect on alanine production and release by muscle. The progressive increase in this ratio may play a role in the eventual deceleration of gluconeogenesis during a prolonged fast and may restrain this process in uncompensated diabetes.
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PMID:The effect of diabetes and the redox potential on amino acid content and release by isolated rat hemidiaphragms. 738 25

The obese (ob) gene has been identified through a positional cloning approach; the mutation of this gene causes marked hereditary obesity and diabetes mellitus in mice. We report here the isolation and characterization of the human ob gene. Southern blot analysis demonstrated a single copy of the ob gene in the human genome. The human ob gene spanned approximately 20 kilobases (kb) and contained three exons separated by two introns. The first intron, approximately 10.6 kb in size, occurred in the 5'-untranslated region, 29 base pair (bp) upstream of the ATG start codon. The second intron of 2.3 kb in size was located at glutamine +49. By rapid amplification of 5'-cDNA ends, the transcription initiation sites were mapped 54-57 bp upstream of the ATG start codon. The 172-bp 5'-flanking region of the human ob gene contained a TATA box-like sequence and several cis-acting regulatory elements (three copies of GC boxes, an AP-2-binding site, and a CCAAT/enhancer-binding protein-binding site). By the fluorescence in situ hybridization technique, the ob gene was assigned to human chromosome 7q31.3. This study should establish the genetic basis for ob gene research in humans, thereby leading to the better understanding of the molecular mechanisms underlying the ob gene.
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PMID:Structural organization and chromosomal assignment of the human obese gene. 749 40

The effect of feeding a diet that produces a high or low incidence of diabetes on immune abnormalities proposed to contribute to the pathogenesis of autoimmune-mediated diabetes was investigated. Diabetes-prone (BBdp) and nondiabetes-prone (BBn) BB rats (21 d) were fed for 21 d a nonpurified (high incidence) or purified (low diabetes incidence) diet. Compared with BBn, immune cells from spleen and mesenteric lymph nodes of BBdp rats demonstrated higher rates of metabolite production from glucose and glutamine, higher splenic cytotoxicity (lysis of 51Cr-labeled YAC-1 cells) and lower mitogen responses (3H thymidine uptake). Bypassing the membrane, using the mitogen phorbol myristate acetate + lonomycin, improved the BBdp mitogen response, suggesting a membrane defect. Immune cells from BBdp rats fed the purified, compared with the nonpurified, diet had lower rates of glutamine (spleen) and glucose (lymph nodes) metabolism and lower splenic cytotoxic activity. Although diet altered the proportion of T and B cells in lymph nodes of BBdp rats, it did not correct the abnormal lymphocyte distribution or effect mitogen responses. Feeding the purified, compared with nonpurified, diet to BBn rats altered energy metabolism by lymph node cells and resulted in lower splenic cytotoxic activity. Reduced splenic natural killer cell activity and decreased immune cell metabolism are unlikely the mechanism for the preventative effect of feeding a purified diet to BBdp rats but are indicative of reduced immune activity.
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PMID:A diet producing a low diabetes incidence modifies immune abnormalities in diabetes-prone BB rats. 756 95

(1) Glucagon activates hepatic glutaminase in vivo. Mitochondria from glucagon-injected rats retain an enhanced capacity to catabolize glutamine and this is more sensitive to activation by inorganic phosphate. The glucagon-elicited stimulation of glutaminase is not evident in broken mitochondria. A similar activation of glutaminase occurs in a number of situations which are associated with elevated glucagon levels in vivo, i.e., after a high-protein meal, after injection of bacterial endotoxin and in diabetes mellitus. (2) Studies in isolated hepatocytes revealed that glutaminase could be activated, not only by glucagon, but also by a cell-permeable protein kinase A activator (Sp-cAMPS) and by a cell-permeable protein phosphatase 1 and 2A inhibitor (okadaic acid). However, the activation of glutaminase by glucagon was not inhibited by a cell-permeable protein kinase A inhibitor (Rp-8-Br-cAMPS). We suggest that the signalling pathway, for glutaminase activation by glucagon, is complex and possibly contains redundant elements.
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PMID:Hormonal control of hepatic glutaminase. 757 40

In vitro studies suggested that increased flux of glucose through the hexosamine biosynthesis pathway (HexNSP) contributes to glucose-induced insulin resistance. Glutamine:fructose-6- phosphate amidotransferase (GFAT) catalyzes glucose flux via HexSNP; its major products are uridine diphosphate (UDP)-N-acetyl hexosamines (UDP-HexNAc). We examined whether streptozotocin (STZ)-induced diabetes (4-10 days) or sustained hyperglycemia (1-2 h) in normal rats alters absolute or relative concentrations of nucleotide-linked sugars in skeletal muscle and liver in vivo. UDP-HexNAc and UDP-hexoses (UDP-Hex) were increased and decreased, respectively, in muscles of diabetic rats, resulting in an approximately 50% increase in the UDP-HexNAc:UDPHex ratio (P < 0.01). No significant changes in nucleotide sugars were observed in livers of diabetic rats. In muscles of normal rats, UDP-HexNAc concentrations increased (P < 0.01) and UDP-Hex decreased (P < 0.01) during hyperglycemia. The UDP-HexNAc:UDP-Hex ratio increased approximately 40% (P < 0.01) and correlated strongly with plasma glucose concentrations. Changes in liver were similar to muscle but were less marked. GFAT activity in muscle and liver was unaffected by 1-2 h of hyperglycemia. GFAT activity decreased 30-50% in muscle, liver, and epididymal fat of diabetic rats, and this was reversible with insulin therapy. No significant change in GFAT mRNA expression was detected, suggesting post-transcriptional regulation. The data suggest that glucose flux via HexNSP increases in muscle during hyperglycemic hyperinsulinemia and that the relative flux of glucose via HexNSP is increased in muscle in STZ-induced diabetes.(ABSTRACT TRUNCATED AT 250 WORDS)
Diabetes 1995 Dec
PMID:Effects of diabetes and hyperglycemia on the hexosamine synthesis pathway in rat muscle and liver. 758 52

AICA riboside (0.1 to 1.0mM) caused a concentration-related increase of insulin output caused by D-glucose (5.6 to 20.0mM) in either rat isolated pancreatic islets or perfused pancreases. In the latter model, the rate of insulin release was further enhanced upon removal of AICA riboside from the perfusate. No insulinotropic action of AICA riboside was observed in the absence of D-glucose or at a low concentration (2.8mM) of the hexose. Preincubation of isolated islets for 30 min in the presence of AICA riboside (0.5 to 1.0mM) also enhanced insulin release recorded over 60 min incubation, in the absence of AICA riboside, but presence of either D-glucose (8.3mM), 2-ketoisocaproate (10.0mM), or the association of D-glucose (5.6 mM) and 2-ketoisocaproate (5.0 mM). The preincubation of the islets with AICA riboside failed, however, to augment the later secretory response to the association of L-leucine (10 mM) and either L-glutamine (10 mM) or L-asparagine (10 mM). In perfused pancreases exposed to 6 mM D-glucose, the presence of L-asparagine (10 mM) did not augment the insulinotropic action of AICA riboside. It is concluded that AICA riboside displays positive insulinotropic potential. However, the determinants of such an insulinotropic action remain to be elucidated.
Diabetes Res 1994
PMID:Insulinotropic action of AICA riboside. I. Insulin release by isolated islets and the perfused pancreas. 764 78


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