UMLS:C0011854 - FACTA Search

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Query: UMLS:C0011854 (type 1 diabetes)
20,749 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Resistance to the metabolic effects of insulin has been reported with regard to glucose disposal in type I diabetic patients (IDDM) even when they were euglycemic. Our aim was to study glucose, lipid, and amino acid metabolism during glucose clamping at multiple levels of insulin in 10 normal (N) and 6 IDDM patients. Blood glucose was maintained constant (4.7 mmol/liter) at three insulin plateaus (160 min each) [42 +/- 6 (SD) 89 +/- 11, and 1255 +/- 185 microU/ml in N and 36 +/- 4, 80 +/- 13, and 1249 +/- 107 microU/liter in IDDM]. Mean glucose disposal was 34 +/- 11, 69 +/- 10, and 84 +/- 22 mumol kg-1 min-1 in N and 16 +/- 5, 40 +/- 18, and 65 +/- 27 in IDDM, respectively. Baseline concentrations of blood lactate, pyruvate, alanine, and branched chain amino acids were 560 +/- 130, 36 +/- 9, 212 +/- 44, and 451 +/- 19 mumol/liter, in N and 793 +/- 179 (P less than 0.05), 45 +/- 14, 195 +/- 50, and 439 +/- 33 in IDDM, respectively. The maximum percent change of lactate during the euglycemic clamp was +147 +/- 23% in N and +75 +/- 15% (P less than 0.05) in IDDM; that of branched chain amino acids was -61 +/- 5% in N and -48 +/- 7% (P less than 0.01) in IDDM. Baseline concentrations of glycerol, FFA, and adipate were 44 +/- 15, 449 +/- 152, and 8 - 8 mumol/liter in N and 39 +/- 14, 473 +/- 44, and 41 +/- 14 (P less than 0.01) in IDDM. The maximum percent change of glycerol during the euglycemic clamp was -50 +/- 8% in N and -16 +/- 8% (P less than 0.01) in IDDM, that of FFA -98 +/- 3% in N and -70 +/- 4% in IDDM (P less than 0.05). No significant differences were found between N and IDDM with regard to blood concentrations of ketone bodies, citrate, ketoglutarate, and hydroxymethylglutaryl coenzyme A both before and during the euglycemic clamp. The lactate percent increase was significantly correlated to glucose disposal rate (P less than 0.001). The lactate turnover rate increased during the euglycemic clamp and was lower in IDDM than in N. We conclude that during euglycemic-multiple insulin clamp studies the greater lactate increase suggests that the flux of glycolysis is higher in N than in IDDM, tricarboxylic acid concentrations are comparable in N and IDDM, and FFA, glycerol, and branched chain amino acid decreases were less in IDDM than in N, suggesting that IDDM patients are resistant to insulin with regard to lipid and protein metabolism. The higher adipate basal values demonstrate enhanced omega-oxidation in IDDM.
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PMID:Type I diabetes is characterized by insulin resistance not only with regard to glucose, but also to lipid and amino acid metabolism. 351 29

Insulin-dependent diabetes mellitus (IDDM) induces plasma amino acid (AA) abnormalities, including low alanine and high branched-chain (BCAA). While insulin treatment restores plasma AA pattern, proline, methionine, valine, isoleucine, and total BCAA remain elevated in skeletal muscle intracellular water. This suggests that the restoration of plasma AA concentrations is not a satisfactory index of recovered AA metabolism in IDDM.
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PMID:Plasma and skeletal muscle free amino acids in type I, insulin-treated diabetic subjects. 389 23

In the past 10 years we have examined 20 children with inflammatory liver disease associated with high serum titers of anti-liver-kidney microsome antibody (anti-LKM). The first hepatic symptoms were progressive fatigue and jaundice, the fortuitous finding of hepatomegaly or splenomegaly with raised transaminase activity, or an acute hepatitis-like illness. At the time of diagnosis, hepatomegaly was present in 18 children, splenomegaly in 16, jaundice in nine, and ascites in two. Serum alanine transferase activities were elevated in all but two, who had already received steroids. Serum total gammaglobulin values were greater than 2.0 gm/dl in 16 children, prothrombin activity less than or equal to 60% in six, and serum titer of anti-LKM between 1:100 and 1:100,000. All children but one had cirrhosis, and histologic signs of aggressivity were present in 14. In 11 children one or more extrahepatic diseases were present, including type 1 diabetes, vitiligo, glomerulonephritis, autoimmune hemolytic anemia, hypoglycemia with hyperinsulinism, autoimmune thyroiditis, chronic mucocutaneous candidiasis with hypoparathyroidism, and multiple cutaneous and visceral telangiectasias. Treatment with prednisone and azathioprine improved the liver condition in 16 of the 18 patients given treatment. In eight of them discontinuation of treatment resulted in rapid relapse; 14 are still receiving treatment and have stable hepatic function with follow-up from 8 months to 6 1/2 years. Only two are free of treatment. Four children died, two in spite of immunosuppressive therapy, one during a relapse, and one of extrahepatic disease. These results indicate that this autoimmune inflammatory liver disease may have onset early in life, with several clinical patterns; is frequently associated with certain types of extrahepatic manifestations of autoimmune origin; and is a potentially fatal disease for which immunosuppressive treatment must be started early.
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PMID:Liver disease associated with anti-liver-kidney microsome antibody in children. 395 Aug 19

To determine red cell age-related changes in the formation of glycosylated (glyco) hemoglobins (Hbs), red cells were fractionated by dextran 40 density gradient centrifugation and glyco Hbs determined by both Bio-Rex 70 cation exchange and phenylboronate-agarose affinity chromatographic methods. Blood samples from a normal adult, adults with White's class A diabetes and insulin dependent diabetes mellitus (IDDM), and newborns of normal and diabetic women were used for this study. Red cell fractions from the newborns and the adults showed a steady increase in the levels of glyco Hb determined by the affinity method with increasing red cell density. In the newborns, the absolute levels and the increase of glyco Hb were smaller than in the adults, probably because of decreased red cell survival in fetuses compared to adults. The glyco Hb value for each cell fraction was significantly higher in the adult with IDDM and in the newborns of diabetic women. In the adults, the levels of Hb Ala + b and Hb Alc determined by Bio-Rex 70 chromatography also showed an increase with increasing red cell age. In the newborns, Hb Flc, which contains predominantly acetylated and some glycosylated Hb F, showed only a small increase with increasing red cell age over and above that due to a concomitant increase in Hb F. On the contrary, Hb Fla + b, which contains mostly glyco Hb F, showed a larger increase. The results confirm that glycosylation, but not acetylation, of Hb F takes place over the entire lifespan of red cells.
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PMID:Changes in glycosylated hemoglobins with red cell aging in normal and diabetic subjects and in newborn infants of normal and diabetic mothers. 619 35

In order to evaluate the effects of moderate alcohol intake on intermediate metabolites, five normal subjects and five euglycemic insulin-dependent diabetics (IDDM) were administered two different isocaloric diets; in one diet 35% of the caloric intake consisted of red wine. The insulin-dependent diabetics were connected to an artificial endocrine pancreas (AEP), and glucose levels were continuously monitored. Blood lactate, pyruvate, acetoacetate (AcAc), 3-hydroxybutyrate (3-OHB), glycerol, free fatty acids (FFA), and alanine levels were measured over a 15-hour period from 9 AM to 12 PM. The results showed that alcohol intake did not significantly influence the glucose profiles in either group (111 +/- 4 mg/100 ml versus 110 +/- 4 mg/100 ml for IDDM; 72 +/- 2 mg/100 ml versus 82 +/- 3 mg/100 ml for controls, 15-hour mean +/- SEM), but in both groups it induced a marked increased in the levels of lactate (1.115 +/- 0.067 mM/liter with alcohol versus 0.706 +/- 0.031 mM/liter without alcohol for IDDM; 0.847 +/- 0.052 mM/liter with alcohol versus 0.666 +/- 0.035 mM/liter without alcohol for controls), in the lactate/pyruvate ratio (24.04 +/- 2.12 with alcohol versus 11.42 +/- 0.20 without alcohol for IDDM; 20.84 +/- 2.16 with alcohol versus 11.62 +/- 0.27 without alcohol for controls), in the levels of 3-OHB (0.081 +/- 0.007 mM/liter with alcohol versus 0.046 +/- 0.003 mM/liter without alcohol for IDDM; 0.067 +/- 0.007 mM/liter with alcohol versus 0.025 +/- 0.002 mM/liter without alcohol for controls) and in the 3-OHB/AcAc ratio (1.452 +/- 0.153 with alcohol versus 0.599 +/- 0.036 without alcohol for IDDM; 1.723 +/- 0.198 with alcohol versus 0.439 +/- 0.040 without alcohol for controls) because of a more reduced redox state. Alcohol intake during meals depressed alanine concentration, while glycerol levels showed a transient increase. Reduced blood FFA concentrations after alcohol intake were observed only in controls. This study demonstrates that moderate alcohol intake with meals also affects intermediate metabolites despite euglycemia. These effects were similar both in normal subjects and in IDDM, even if the harmful effects of alcohol may be enhanced by poor metabolic control in the latter.
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PMID:Metabolic effects of moderate alcohol intake with meals in insulin-dependent diabetics controlled by artificial endocrine pancreas (AEP) and in normal subjects. 634 61

Although inflammatory or degenerative changes in salivary glands have been demonstrated in genetic animal models of diabetes mellitus and in experimental diabetes, no information is available in diabetics on the possible leakage in saliva of cytosolic enzymes as markers of salivary cell injury. Aspartate (GOT) and alanine (GPT) aminotransferases and lactate dehydrogenase (LDH) were determined in saliva samples collected by the Salivette method from well-controlled insulin-dependent (IDDM n = 11) and non-insulin-dependent (NIDDM n = 18) diabetic patients and from age-cross-matched healthy subjects (n = 33). In IDDM salivary concentrations of GOT (112.55 +/- 23.94 UI/L) and LDH (1120.27 +/- 168.31 UI/L) were similar to those found in the NIDDM (90.94 +/- 19.64, and 1255.43 +/- 221.40 UI/L respectively), but higher (p < 0.05) than those observed in normal subjects (33.09 +/- 3.71, and 423.58 +/- 39.94, UI/L respectively). GPT was higher in NIDDM than IDDM, which in turn was higher than in normal subjects (42.78 +/- 14.72, 16.45 +/- 3.74 and 6.85 +/- 1.52 UI/L respectively). Salivary and serum values of GOT, GPT and LDH were not correlated. Determination of cytosolic enzymes in saliva may be useful for monitoring the diabetic involvement of salivary glands.
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PMID:Aminotransferases and lactate dehydrogenase in saliva of diabetic patients. 844 46

In IDDM, the gluconeogenic turnover of amino acids is increased even if glycemia is well controlled and may be restored to normal by means of prehepatic insulin substitution. Therefore, the present study was designed 1) to investigate the influence of route of insulin administration (portal versus peripheral) on the urea production rate, which is considered to measure amino acid catabolism, and 2) to elucidate the impact of different food-protein intake. Paired studies were conducted in chronic insulin-dependent diabetic dogs maintained normoglycemic. Diabetic animals and nondiabetic controls were fed either a high-protein diet (46% of energy intake provided by proteins; study 1) or a low-protein carbohydrate-supplemented diet (20% of energy intake provided by protein; study 2) for 2 days, and flux rates of glucose and urea were measured using isotope dilution techniques. In both studies, the diabetic animals were maintained normoglycemic by glucose-controlled insulin infusion delivered either systemically or portally. In study 1 versus study 2, the animals showed lower alpha-amino nitrogen levels and concentrations of gluconeogenic amino acids, predominantly alanine. There were no significant differences in plasma glucose and glucose turnover between the experimental groups on either systemic or portal insulin infusion versus controls; however, peripheral insulin levels were higher for diabetic animals maintained with systemic versus portal insulin delivery (P < 0.05). No significant differences in glucagon, lactate, pyruvate, nonesterified fatty acids, or beta-hydroxybutyrate were observed. Urea production was significantly higher in study 1 compared with study 2: 7.48 +/- 0.83 vs. 5.97 +/- 0.59 micromol / kg / min (normal dogs); 12.97 +/- 1.86 vs. 5.54 +/- 0.60 micromol / kg / min (diabetic dogs on portal insulin); 16.11 +/- 2.59 vs. 6.82 +/- 0.70 micromol / kg / min (diabetic dogs on systemic insulin infusion); P < 0.05 for all. The diabetic dogs maintained normoglycemic with systemic insulin infusions had significantly higher rates of urea synthesis than those with portal insulin infusion (P < 0.05). It is concluded that in IDDM, even if normoglycemia is managed, there is significantly increased amino acid catabolism with posthepatic systemic insulin treatment. This increased catabolic rate is more pronounced during high-protein nourishment.
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PMID:Increased urea synthesis in insulin-dependent diabetic dogs maintained normoglycemic: effect of portal insulin administration and food protein content. 862 Oct 20

To understand the rules determining peptide binding to the celiac disease and type 1 diabetes mellitus associated HLA-DQ2 molecule, we have studies in detail the binding of a peptide OVA 258-276Y (IINFEKLTEWTSSNVMEERY) which exhibits strong binding to DQ2. First we tested a set of N- and C-terminal truncated variants, and found the core binding region to comprise residues 267-276Y. Single alanine substitution analysis of the OVA 267-276Y peptide revealed that replacements of V272, E275 and the C-terminal Y had negative effects whereas the substitution of N271 had a positive effect. A polyalanine analogue of the OVA 267-276Y peptide with V272, E275 and a C-terminal Y bound at least as well as the original peptide. A variant peptide with a deletion of R276 displayed decreased binding, suggesting that the anchor residues were out of frame in this analogue. To further characterize the residues playing a role in the binding of the OVA 267-276Y peptide to DQ2 we tested the binding of several analogues with substitutions for V272, E275 and the C-terminal Y residue. Our results indicate that peptides binding to DQ2 have anchor residues in relative positions 4, 7 and (P4, P7 and P9). Residues with negatively charged or hydrophobic aliphatic but not positively charged side chains are preferred in P4 and P7, whereas residues with bulky hydrophobic side chains are preferred in P9.
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PMID:Identification of a putative motif for binding of peptides to HLA-DQ2. 867 2

The genetic susceptibility to Graves' disease and type 1 (insulin-dependent) diabetes mellitus is conferred by genes in the human leukocyte antigen region on the short arm of chromosome 6, but several other genes are presumed to determine disease susceptibility. Among those candidate genes is the cytotoxic T lymphocyte antigen 4 (CTLA4) located on chromosome 2q33 in man. We investigated the distribution of the CTLA4 exon 1 polymorphism (49 A/G) in Graves' disease and IDDM. This dimorphism at codon 17 results in an amino acid exchange (Thr/Ala) in the leader peptide of the expressed protein and was analyzed by PCR, single strand conformation polymorphism, and restriction fragment length polymorphism analysis in 305 patients with Graves' disease, 293 patients with IDDM, and 325 controls. Patients with Graves' disease had significantly more Ala alleles than controls, both as homozygotes (21% vs. 13%) and as heterozygotes (53% vs. 46%), and less Thr as homozygotes (26% vs. 42%; P < 2 x 10(-4). The phenotypic frequency of Ala-positive patients (73%) was significantly higher than of controls (58%; P = 10(-4); relative risk = 2). Patients with IDDM also had significantly more Ala alleles as homozygotes (19%) or heterozygotes (50%; P = 0.01). In conclusion, an alanine at codon 17 of CTLA4 is associated with genetic susceptibility to Graves' disease as well as to IDDM.
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PMID:CTLA4 alanine-17 confers genetic susceptibility to Graves' disease and to type 1 diabetes mellitus. 898 48

The molecular mechanism by which some, but not all, variants of encephalomyocarditis (EMC) virus selectively infect pancreatic beta-cells in mice and induce IDDM has been an enigma for more than a decade. We report here that the binding site of the EMC viral capsid protein VP1 determines viral diabetogenicity. Recombinant chimeric EMC viruses containing threonine, serine, proline, aspartic acid, or valine at position 152 of the major capsid protein VP1 bind poorly to beta-cells. In contrast, recombinant chimeric EMC viruses containing alanine or glycine at position 152 of the VP1 bind efficiently to and infect beta-cells, resulting in the development of diabetes. Three-dimensional molecular modeling reveals that the van der Waals interactions are greater and the residues surrounding position 152 of the VP1 are more closely packed in recombinant chimeric viruses containing threonine, serine, proline, aspartic acid, or valine at position 152 than in recombinant chimeric viruses containing alanine or glycine at the same position. Our studies reveal that the surface areas surrounding alanine or glycine at position 152 of the VP1 are more accessible, thus increasing the availability of the binding sites for attachment to beta-cell receptors and resulting in viral infection and the development of diabetes.
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PMID:Determination of encephalomyocarditis viral diabetogenicity by a putative binding site of the viral capsid protein. 956 90

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