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)

Oxyhemoglobin dissociation curves (ODC) from zero to full saturation were developed from tests performed on whole blood from various groups of diabetic and nondiabetic healthy subjects. P50 at in-vivo pH was slightly but significantly lower than normal in ambulatory nonacidotic, uncomplicated juvenile diabetics (26.0 vs. 27.3 mm. Hg, P less than 0.001), despite increased red cell 2,3-diphosphoglycerate (2,3-DPG) concentrations in diabetic erythrocytes (15.0 vs. 13.7 mumole/gm. Hb, P less than 0.001). This combination of changes is in keeping with the presence of increased proportions of hemoglobin AIc in insulin-treated diabetics. The position of the ODC was positively correlated with the 2,3-DPG concentration (P less than 0.01), which varied in response to fluctuations in plasma concentration of inorganic phosphate (Pi) (P less than 0.001). Optimal metabolic control may lead to a normalization of the ODC in association with increased concentrations of red cell 2,3-DPG and P. When the diabetes was uncontrolled, the ODC was usually unchanged during the acidotic phase because the lowered pH balanced the effect of diminished 2,3-DPG concentration on the ODC. After correction of acidosis, the disproportion between erythrocyte 2,3-DPG and pH became quite prominent, accompanied by a corresponding fall in P50 (21.0 vs. 26.1 mm. Hg, P less than 0.001). Following ketoacidosis, with a persistently lowered Pi, it may take up to one week for 2,3-DPG to return to an approximately normal level, and the P50 will be impaired for the same period. A diphosphonate (EHDP) known to enhance tubular phosphate reabsorption in man was given to nonacidotic insulin-treated diabetic and healthy volunteers for 28 days. It caused a significant increase in mean Pi and P50 in both healthy and diabetic subjects (r = 0.58, P less than 0.01). When a dietary supplement of dibasic calcium phosphate was given to diabetic subjects for 28 days, a significant increase in P50 also occurred (25.2 vs. 27.2 mm. Hg, P less than 0.001). It is recommended that the diabetes diet be supplemented by dibasic calcium phosphate to prevent the inhibitory effect of a low concentration of Pi on red cell oxygen delivery.
Diabetes 1976
PMID:Oxygen transport impairment in diabetes. 0 22

Oxyhemoglobin dissociation curves (ODC) were performed on blood from newly diagnosed, nonketotic diabetics prior to and following initial insulin treatment and from ambulatory juvenile diabetics before and after their usual morning insulin. In 10 newly discovered diabetics the average P50 at in vivo pH was normal prior to insulin (26.2 mm Hg), decreased to 24.5 mm Hg (p less than 0.005) on the day following the initial insulin administration, and was within normal limits (26.9 mm Hg) when the diabetes was finally well controlled and red cell 2,3-diphosphoglycerate (2,3-DPG) had risen to elevated levels. Oxygen affinity of hemoglobin was closely correlated with the content of red cell 2,3-DPG (r = 0.61, p less than 0.001) but was unrelated to the level of hemoglobin Alc. In 40 juvenile patients the average P50 was also normal prior to insulin administration but was significantly lower 3-4 hr after they had received their usual insulin dose (p less than 0.001). The study indicates that insulin administration to diabetics with high blood glucose levels may lead to transient decreases in red cell 2,3-DPG and in oxygen-releasing capacity of the red blood cells.
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PMID:An adverse effect of insulin on the oxygen-release capacity of red blood cells in nonacidotic diabetics. 2 96

Factors that influence hemoglobin (Hb)A(Ic) synthesis by intact erythrocytes were studied in vitro. After incubation cells were lysed, and hemoglobins were separated by isoelectric focusing on polyacrylamide slab gels and quantitated by microdensitometry. HbA(Ic) increased with time, glucose concentrations (5-500 mM), and incubation temperature (4 degrees -37 degrees C). Low temperatures allowed prolonged incubations with minimal hemolysis. At 4 degrees C HbA(Ic) increased linearly with time for 6 wk; after incubation at the highest glucose concentration, HbA(Ic) comprised 50% of total hemoglobin. Insulin (1 and 0.1 mU/ml) did not affect HbA(Ic) synthesis in vitro. In addition to glucose, galactose and mannose, but not fructose, served as precursors to HbA(Ic). A good substrate for hexokinase (2-deoxyglucose) and a poor hexokinase substrate (3-O-methylglucose), were better precursors for HbA(Ic) synthesis than glucose, suggesting that enzymatic phosphorylation of glucose is not required for HbA(Ic) synthesis. Autoradiography after erythrocyte incubation with (32)P-phosphate showed incorporation of radioactivity into HbA(Ia1) and A(Ia2), but not HbA(Ib), A(Ic), or A. Acetylated HbA, generated during incubation with acetylsalicylate, migrated anodal to HbA(Ic) and clearly separated from it. Erythrocytes from patients with insulinopenic diabetes mellitus synthesized HbA(Ic) at the same rate as controls when incubated with identical glucose concentrations. Likewise, the rate of HbA(Ic) synthesis by erythrocytes from patients with cystic fibrosis and congenital spherocytosis paralleled controls. When erythrocytes from cord blood and from HbC and sickle cell anemia patients were incubated with elevated concentrations of glucose, fetal Hb, HbC, and sickle Hb decreased, whereas hemoglobins focusing at isoelectric points near those expected for the corresponding glycosylated derivatives appeared in proportionately increased amounts.
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PMID:Synthesis of hemoglobin Aic and related minor hemoglobin by erythrocytes. In vitro study of regulation. 3 12

Studies are summarized to indicate that diabetes is associated with a fluctuating disturbance in the oxygen release capacity of the erythrocytes. This disorder, present from the onset of the disease, is a consequence of excess hemoglobin AIc, and absolute or relative hypophosphatemia and acidosis that interfere with formation of the red cell metabolite 2,3-diphosphoglycerate. As a result frequent increases in hemoglobin--oxygen affinity are produced. Available evidence suggests that transient decreases in red cell oxygen delivery lead to dilatation of the venous part of the microcirculation associated with increased transcapillary plasma permeation. Combined with microrheologic alterations (increased red cell aggregation, increased blood viscosity, and decreased red cell deformability) these functional changes may over the years participate in the pathogenesis of the microvascular disease in diabetes.
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PMID:Changes in red cell oxygen release capacity in diabetes mellitus. 3 92

A 4-year evaluation of the chronic toxicity of megestrol acetate in dogs is reported. .01, .1 or .25 mg of megestrol acetate/kg/day or .25 mg of chlormadinone acetate/kg/day was administered orally for 4 years t o female beagle dogs. The hormone-treated dogs tended to gain more weig ht than did the controls (controls vs. .25 mg megestrol acetate every month after the 3rd p less than .01). All treated dogs revealed decreased evidence of estrus. Mucoid vaginal discharges were more prevalent among the middle and high dose groups. Mean hemoglobin, packed cell volume and total erythrocyte values were slightly decreased while mean total leucocyte count and erythrocyte sedimentation rates were slightly increased in the middle and high dose groups. Clotting me chanism did not reveal any disturbances. Evidence of diabetes consistin g of bilateral cataracts, elevated serum glucose concentrations and glycosuria after 4 years in 2 of 16 high-dose megestrol acetate and in 6 of 15 chlormadinone acetate-treated dogs was revealed. It is concluded that the effects of megestrol acetate were similar but less severe than those of chlormadinone acetate.
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PMID:A four-year evaluation of the chronic toxicity of megestrol acetate in dogs. 5 13

The increased level of the glycosylated hemoglobin (hemoglobin A1c) in the diabetic patient has proved to be an interesting clue to understanding the biochemical basis of the sequelae of diabetes. This minor hemoglobin, which arises as nonenzymatic postsynthetic addition of glucose to hemoglobin A, acts as an indicator molecule for the glucose environment over a 3-5-wk period prior to measurement. Reasoning that a similar glycosylation reaction could be occurring with other body proteins, we have studied the ocular lens. The lens, like the erythrocyte, is not dependent on insulin for glucose concentration in the extracellular milieu that would be elevated in the diabetic state. These studies have revealed that a high glucose in vivo or an increased glucose or glucose-6-phosphate concentration in vitro leads to the glycosylation of epsilon-amino groups of lysine residues in bovine and rat lens crystallins. This glycosylation imparts an increased susceptibility of the crystallins to sulfhydryl oxidation. Disulfide crosslinks result in the formation of high molecular weight aggregates and an opalescence of the crystallin solutions.
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PMID:Role of nonenzymatic glycosylation in the development of the sequelae of diabetes mellitus. 12 96

The minor hemoglobins AIa, AIb, and AIc were studied in mice with either genetic or chemically induced diabetes. Hemoglobin AIc was elevated approximately twofold in all the phenotypically diabetic mice studied (C57BL/KsJ-db/db, C57BL/KsJ-ob/ob, C57BL/6J-db/db, and alloxan- and streptozotocin-treated mice). Elevation of the hemoglobin AIc in C57BL/6J-db/db mice was of short duration, reflecting the transitory diabetes characteristic of these mice. The degree of increase of hemoglobin AIc levels was unrelated to severity of hyperglycemia, duration of diabetes, age of mouse, or body weight. It is not known what factor(s) dictates the steady-state concentration of hemoglobin AIc.
Diabetes 1976 Jan
PMID:Increased hemoglobin AIc in diabetic mice. 12 80

Diabetes is associated with a fluctuating impairment in oxygen transport of the erythrocytes. This impairment is correlated with hyperglycemia by the formation of glycosylated hemoglobin (HbAIC) and with inhibitory factors of glycolysis i.e. hypophosphatemia and acidosis which lower the concentration of red cell 2,3-diphosphoglycerate. Diabetic angiopathy may be the ultimate result of innumerable microvascular responses to discrete hypoxic injuries associated with increased plasma permeation through the vessel walls. It is shown that two additional risk factors for atherosclerosis--smoking and hypertriglyceridemia may also lead to arterial wall hypoxia by changing the position of the oxyhemoglobin dissociation curve.
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PMID:Diabetic vascular disease. The importance of insulin deficiency, hyperglycemia and hypophosphatemia on red cell oxygen unloading. 27 65

The Friend erythroleukemia cell has an insulin receptor with all the properties of mammalian insulin receptors: rapid, reversible, and saturable binding of insulin; specific for insulin and insulin analogs; inversely proportional to temperatures; sharply pH dependent (optimum = 8.0); and demonstrated ligand-induced accelerated dissociation consistent with negative cooperativity. There were 17,200 sites per cell. After induction by dimethylsulfoxide, 80% of the cells became benzidine positive (i.e., contained hemoglobin). The receptor concentration dropped to 4300 sites per cell, while the remaining receptors retained all the initial binding characteristics. This loss of receptors could not be attributed directly to either dimethylsulfoxide or changes in cell size. Thus, during the process of differentiation, the concentration of insulin receptors in the Friend erythroleukemia cell decreases.
Diabetes 1979 Sep
PMID:Decrease in insulin receptors during Friend erythroleukemia cell differentiation. 28 16

Use of an ion exchange chromatographic method and a colorimetric method with thiobarbituric acid showed that levels of nonenzymatically glucosylated serum albumin were increased in patients with poorly controlled diabetes mellitus compared to controls. The two methods correlated well (r = 0.99) and clearly discriminated between normal and poorly controlled diabetic populations. The levels of glycosylated hemoglobin were also measured in both populations. Several patients apparently in good control based on glycosylated hemoglobin measurements were found to have increased levels of glycosylated albumin. Because albumin has a shorter circulating half-life than does the human erythrocyte, the plasma concentration of glucosylated albumin should be expected to reflect short-term control of hyperglycemia in diabetes. The studies reported here suggest that the level of glucosylated albumin may indeed be a sensitive indicator of moderate hyperglycemia and of early glucose intolerance.
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PMID:Enhanced nonenzymatic glucosylation of human serum albumin in diabetes mellitus. 29 61


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