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Query: UMLS:C0011849 (diabetes)
 277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We evaluated the possible role of islet glucokinase in controlling the rate of islet glucose metabolism, and thereby the rate of glucose-induced insulin release. The activities of glucokinase, hexokinase, P-fructokinase, and glyceraldehyde-P dehydrogenase were quantitated in sonicated or isotonically homogenized islet preparations using pyridine nucleotide-dependent fluorometric assays. In sonicates, about 1/4 of the islet glucose phosphorylating activity was due to an enzyme with kinetic properties similar to glucokinase; 3/4 of the activity was due to hexokinase. The procedure for determining islet glucokinase activity was improved by centrifuging isotonic islet homogenates at 12,000 x g. The supernatant fraction was enriched for glucokinase. About 1/2 of the glucose phosphorylating activity in this fraction was due to glucokinase and 1/2 was due to hexokinase. The glucokinase activity in islet homogenates was !23 of the activity of hexokinase, 1/40 of the activity of P-fructokinase, and 1/400 of the activity of glyceraldehyde-P dehydrogenase. Detailed concentration dependency curves of glucose and mannose utilization were also obtained with intact isolated pancreatic rat islets. Glucose and mannose usage in islets was governed by two superimposed hyperbolic systems differing in Km and Vmax. A high Km system (Km for glucose 11 mM and for mannose 21 mM) predominated. A low Km system (Km for glucose 215 and for mannose 530 microM) contributed about 15% to the total activity. The available data with intact islets could be rationalized by the existence of two distinct hexose phosphorylating enzymes with differing capacities and kinetic properties. These enzymes, tentatively identified as glucokinase and hexokinase, could coexist in the same cell or could be distributed among different cell types. The possible physiologic significance of these results is discussed, emphasizing the idea of dual control of glycolysis and insulin release by glucokinase and hexokinase. An earlier proposal that glucokinase serves as glucoreceptor of beta-cells [J. Biol. Chem. 243:2730 (1968)] is greatly strengthened by the present studies.
Diabetes 1981 Nov
PMID:Regulation of glucose metabolism in pancreatic islets. 627 17

Glucokinase from rat liver or transplantable, radiation-induced insulinomas was partially purified by ion exchange chromatography using DEAE-Cibacron Blue F3GA agarose. Phosphorylation of alpha,beta-D-mannose by glucokinase occurred with cooperative rate dependence on mannose concentration (nH: 1.50). Half-maximal phosphorylation rate occurred at 14 mM alpha,beta-D-mannose. The alpha- and beta-anomers of mannose were phosphorylated with sigmoidal kinetics (nH: 1.57 and 1.42, respectively). The affinity of glucokinase for alpha-D-mannose is higher than for beta-D-mannose (S0.5: 12 mM versus 19 mM). The maximum phosphorylation rate is slightly higher, about 10%, with beta-D-mannose than with alpha-D-mannose. Islet glucokinase has previously been shown to be chromatographically and kinetically identical to glucokinase from insulinoma and liver; therefore, evidence that glucokinase from these two tissues phosphorylates mannose with cooperative rate dependence and differentiates mannose anomers supports the glucokinase-glucose sensor hypothesis.
Diabetes 1983 Dec
PMID:Mannose phosphorylation by glucokinase from liver and transplantable insulinoma. Cooperativity and discrimination of anomers. 631

Non-insulin-dependent diabetes (NIDDM) was obtained in adult rats following a neonatal streptozotocin injection. Rats with NIDDM exhibited slightly lowered plasma insulin, slightly elevated basal plasma glucose values (less than 200 mg/dl), and low pancreatic insulin stores (50% of the controls). Insulin secretion was studied in this model using the isolated perfused pancreas technique. Insulin response to glucose stimulation over the range 5.5-22 mM was lacking, thus indicating complete loss of B-cell sensitivity to glucose. Even in presence of theophylline, the B-cells remained insensitive to glucose. In contrast, glyceraldehyde elicited an insulin release as important as that obtained in the control pancreata. This could possibly suggest that the B-cell dysfunction in rats with NIDDM involves a block in glucose metabolism in the early steps of glycolysis prior to the triose-phosphate. Mannose stimulated insulin secretion less in the diabetics than in the controls. The insulin secretion obtained in response to isoproterenol indicated that the ability of the adenylcyclase to generate cAMP in the B-cells of the diabetics was not decreased. The insulinotropic actions of acetylcholine and tolbutamide were normal and increased, respectively, as compared with the controls. In the absence of glucose, the B-cells of the diabetics were unexpectedly hypersensitive to arginine and leucine. The alpha-ketoisocaproate effect in the diabetics was not significantly different from that obtained in the controls. The possibility that enhancement of insulin response to leucine in the diabetics might be related to a more active conversion of leucine to ketoisocaproate along the first steps of intraislet leucine metabolism is proposed.
Diabetes 1983 May
PMID:Glucose insensitivity and amino-acid hypersensitivity of insulin release in rats with non-insulin-dependent diabetes. A study with the perfused pancreas. 634 Nov 28

Six normal dogs were made galactosemic by feeding a 30% D-galactose diet, and were followed up to 5 yr. For comparison, 10 normal dogs and 10 alloxan-diabetic dogs were concurrently fed the diet less the galactose supplement. Retinopathy occurred in each of four dogs glactosemic 3 or more yr, and was absent at lesser durations of galactosemia, and from normal dogs not given the galactose supplement. The retinopathy was marked by saccular capillary aneurysms, hemorrhages, nonperfused or acellular vessels, tortuous hypertrophic capillaries, loss of capillary pericytes, and other lesions typical of diabetic patients and alloxan-diabetic dogs. In galactose-fed dogs, blood galactose varied between 0 (fasted) and 250 mg/dl (postprandial), and glycosylated hemoglobin levels became supranormal. In contrast to diabetic dogs, blood levels of glucose, free fatty acids, and branched-chain amino acids were not elevated in the galactosemic dogs, and their serum insulin seemed normal. The results suggest that the level of blood hexose is itself an important determinant of retinopathy.
Diabetes 1984 Jan
PMID:Experimental galactosemia produces diabetic-like retinopathy. 636 Jul 71

Control of blood sugar involves the complex interaction of the pancreatic glucose-sensing beta-cells with the liver, which serves as the primary site of glucose disposal after a meal. Glucokinase occupies an important role in controlling glucose phosphorylation and metabolism both in the liver and in pancreatic islets. In the beta-cells, glucokinase functions as pacemaker of glycolysis at physiological glucose levels. It determines the unique characteristics of islet hexose usage, that is, the rate, affinity, cooperativity, and anomeric discrimination of glucose metabolism. Because glycolysis controls hexose-induced insulin release, glucokinase is considered the best-qualified candidate for the elusive glucose sensor of beta-cells. A deficiency of glucokinase would disturb glucose homeostasis. Decreased islet glucokinase would diminish islet glycolysis and would result in a higher set point of beta-cells for glucose-induced insulin release. Decreased liver glucokinase would cause less efficient hepatic glucose disposal. Human maturity-onset diabetes (type II diabetes) has these characteristics. It is thus conceivable that certain forms of type II diabetes are due to a glucokinase deficiency.
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PMID:New perspectives on pancreatic islet glucokinase. 636 28

Diabetes mellitus not infrequently coexists with hypo- and hyperthyroidism. Hyperthyroidism aggravates glucose intolerance. A review of this phenomenon reveals multiple mechanisms, which include increased hexose intestinal absorption, decreased responsiveness to insulin, and increased glucose production. Conflicting results are obtained when circulating insulin level is measured in thyrotoxicosis. The role of glucagon and alpha-cell sensitivity is unclear. Diabetes mellitus influences the assessment of thyrotoxicosis by falsely decreasing the blood levels of thyroxine (T4) and triiodothyronine (T3) during severely uncontrolled hyperglycemia. Hypothyroidism is found in about 3% of patients with insulin-dependent diabetes mellitus (IDDM). Moreover, 13-20% of IDDM patients have elevated blood thyrotropin levels and anti-thyroid antibodies. Hypothyroidism per se seems to ameliorate hyperglycemia. A subtype of IDDM shares similar immunogenetic features with familial autoimmune thyroiditis. Studies of IDDM probands who show a high prevalence of circulating thyroid antibodies reveal the presence of such antibodies in their first-degree relatives. Circulating islet-cell antibodies, detected in a majority of IDDM patients at the onset of their disease, tend to persist only in those patients with coexistent polyendocrine autoimmune disease, including thyroiditis. Similar human leukocyte antigen (HLA) locus types are associated with thyroiditis and IDDM, namely HLA-Dr3 and -Dr4.
Diabetes Care
PMID:Diabetes mellitus and thyroid disease. 640 Jul 13

Pieces of rat epididymal fat tissue were maintained in a biochemically defined medium for 20 to 44 hours in either the absence or presence of a sulfonylurea at levels known to be effective in humans. Prolonged exposure of adipocytes to sulfonylureas did not influence the number of insulin receptors or their affinity to insulin or the ability of insulin to induce receptor loss (down-regulation). Also, the sulfonylureas did not influence the basal uptake of the D-glucose analogs 2-deoxyglucose and 3-O-methylglucose. However, exposure to these drugs resulted in a potentiation of the stimulatory effects of insulin on hexose transport at submaximal and maximally effective concentrations of insulin. The average potentiation was approximately 30%. In addition, sulfonylureas enhanced stimulation of hexose uptake by the insulin mimickers, hydrogen peroxide and vitamin K5. These oxidants are known to manifest insulin-like actions subsequent to insulin binding. Under conditions in which glucose transport was rate limiting, the conversion of glucose to carbon dioxide and the total lipids mirrored the findings of hexose uptake. However, at a glucose concentration of 50 mM, at which hexose transport is no longer rate limiting, sulfonylureas did not potentiate metabolism in th absence or presence of insulin. These results may help to explain the hypoglycemic action of the drug in view of the recent finding that a postreceptor deficit is present in noninsulin-dependent diabetes mellitus.
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PMID:Extrapancreatic effects of sulfonylureas. Potentiation of insulin action through post-binding mechanisms. 640 22

Modifications of plasma lipoprotein structure and function resulting from in vivo post-translational nonenzymatic glycosylation may play a role in the premature atherosclerosis of patients with diabetes mellitus. This report describes the generation and characterization of six unique murine monoclonal antibodies that bind glucosylated human plasma lipoproteins, but do not react with normal plasma lipoproteins. This was accomplished by immunizing mice with homologous glucosylated low density lipoprotein. In competitive inhibition radioimmunoassays, the dominant epitope recognized by these antibodies on glucosylated low density lipoprotein was identified as glucitollysine, the reduced hexose alcohol form of glucose conjugated to the epsilon amino group of lysine. Each of these antibodies was capable of identifying glucitollysine epitopes on all reduced glucosylated proteins studied, including high density lipoprotein, albumin, hemoglobin, and transferrin. These antibodies were also capable of identifying and quantitating glucitollysine residues on the total plasma proteins and isolated lipoproteins of normal and diabetic individuals after reduction of the proteins with NaBH4. Preliminary data suggest that diabetic total plasma proteins and isolated lipoproteins contain at least threefold more immunochemically detectable glucitollysine residues than nondiabetic plasma proteins and lipoproteins. The technique described in this report should allow production of region-specific antibodies to any immunogenic modification of a protein.
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PMID:A novel method for generating region-specific monoclonal antibodies to modified proteins. Application to the identification of human glucosylated low density lipoproteins. 641 10

For a better understanding of the processes leading to diabetic microangiopathy, type IV collagen from kidneys of patients with long-term diabetes was compared with the collagen from kidneys of sex- and age-matched controls. Type IV collagen from diabetic kidneys revealed no abnormalities in amino acid composition, hydroxylation of proline and lysine, enzymatic glycosylation of hydroxylysine, and immunological reactivity with several monoclonal and polyclonal, anti-type IV collagen antibodies. However, ketoamine-linked hexose, resulting from the nonenzymatic condensation of glucose with lysyl or hydroxylysyl residues, was 1.7-fold higher in diabetic type IV collagen. The stoichiometry of this modification was estimated to be 1-2 residues of hexose per triple helical molecule (Mr 380,000). This small amount of ketoamine-linked hexose might hardly have an effect on the function and turnover of type IV collagen, unless it is bound to a crucial site along the collagen molecule. The nonenzymatic glycosylation of collagen might therefore be a mere consequence of the metabolic disturbances, rather than the primary cause for the late complications of diabetes mellitus.
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PMID:Nonenzymatic glycosylation of basement membrane collagen in diabetes mellitus. 647 68

The effect of diabetes on the metabolism of glucose and lactate was examined in isolated rat cerebral microvessels. In rats with diabetes induced with streptozotocin, glucose oxidation to CO2 by the microvessels was decreased by 54-83% and its conversion to lactate by 21-61%. Insulin therapy for several days or starvation for 48 h both lowered blood glucose levels in the diabetic rats and restored microvessel glucose metabolism to normal. Cerebral microvessels consist principally of the capillaries that constitute the blood-brain barrier. Direct assessment of the blood-brain barrier in vivo using the brain uptake index (BUI) technique revealed a close parallel to the findings in the microvessels. Thus, hexose transport was diminished in diabetic rats and restored to normal by both insulin therapy and starvation. The oxidation of [1-14C]lactate to CO2 like that of glucose was depressed in microvessels of diabetic rats. In contrast to glucose, however, the transport of lactate across the blood-brain barrier in vivo was not altered. These findings suggest that diabetes suppresses glucose metabolism in rat cerebral microvessels and downregulates glucose transport across the blood-brain barrier. They also suggest that both of these processes are regulated by chronic alterations in blood glucose concentration rather than by insulin per se.
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PMID:Diabetes-induced alterations of glucose metabolism in rat cerebral microvessels. 649 67


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