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)

Whereas glucose is a major substrate for pulmonary lipid synthesis, fructose has also been suggested as a potential substrate. In vivo pulmonary fatty acid synthesis is depressed in hormonally deprived conditions, such as diabetes, and this can be modified by fructose feeding, but not by glucose feeding. In this study the glucose and fructose utilizations were compared in normal, diabetic and fasting states using isolated perfused rat lungs. When (U-14C)- or (5-3H)-glucose was used as substrate, glucose utilization by lung was reduced by 50% in both the fasting and diabetic animals compared to the normal controls. Using (U-14C)-glucose as substrate, the incorporation of (14C)-label in various metabolites of glucose was significantly depressed. For example, this reduction was 50% in lactate, pyruvate and CO2, 15% in ethanol-insoluble fraction, 65% in neutral lipids, 75% in phospholipids, 80% in fatty acid moiety, 40% in deacylated fraction and 10% in the polysaccharide fractions. Refeeding the fasted animals or insulin treatment to the diabetic animals restored these depressed (14C)-recoveries to the normal levels. Fructose utilization was less than 10% of glucose utilization, but remained unaffected by fasting and diabetic states. In addition, pulmonary hexokinase enzyme activity was lowered significantly in fasting and diabetic animals, whereas fructokinase enzyme activity was not altered. Despite the low rate of fructose utilization, these results suggest that fructose may serve as an alternative substrate for pulmonary phospholipid synthesis when glucose utilization is significantly depressed.
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PMID:Nutritional and hormonal control of glucose and fructose utilization by lung. 390 22

Specific binding sites for insulin have been identified and characterized for the human erythroleukemia cell line K-562. The binding of [125I]-insulin to the cells increased as a function of time, reaching a maximum at 20 min when incubation was performed at 37 degrees C. The binding of [125I]-insulin was dose-dependently inhibited by insulin or proinsulin. Scatchard plot of the binding data was curvilinear, and the number of insulin receptors was approximately 39,000. Insulin at concentrations of 0.05-10.0 ng/ml stimulated CO2 production and DNA and protein synthesis in K-562 cells in a dose-dependent manner, indicating that the insulin binding sites are functionally important in mediating these biochemical events induced by insulin. Maximal insulin responses were elicited at concentrations of less than 5 ng/ml, when (at most) 10% of the insulin receptors were occupied. After binding to the cells, [125I]-insulin was degraded in a time- and temperature-dependent manner. As reported for other types of cells, unlabeled insulin also downregulated insulin receptors in K-562 cells. When the cells were incubated with 1 X 10(-7) M unlabeled insulin for 24 h, the number of insulin receptors decreased by 50% without a change of affinity. K-562 cells may be useful in studying the role of insulin receptors in cell functions induced by insulin.
Diabetes 1985 Apr
PMID:Characteristics of insulin receptors and insulin action in human myelogenous leukemia cell line K-562. 391 4

A significant increase in CO2 production, reflecting carbohydrate oxidation and/or fat synthesis, is observed in normal subjects after the ingestion of glucose. The anatomic site(s) of this CO2 production has not yet been localized, although liver and muscle are logical considerations. To assess the contribution of skeletal muscle to this process, we measured whole-body and forearm CO2 flux in normal, postabsorptive subjects after the ingestion of 100 g of glucose and calculated their total muscle CO2 production. In the basal state, muscle accounted for 19% of total CO2 production, and, after glucose administration, muscle CO2 production did not change significantly. Thus, muscle is not the principal site of the observed increase in CO2 production.
Diabetes 1985 Oct
PMID:Role of muscle in CO2 production after oral glucose administration in man. 393 Mar 20

It is known that dehydroascorbic acid (DHAA) produces a diabetogenic effect and its content in the blood increases in diabetes mellitus. It was previously established that the generation of reducing equivalents (RE) in the course of hexosemonophosphate shunt, CO2 production and SH-glutathione regeneration in erythrocytes with and without moderate and maximum oxidation load in vitro were not disturbed in diabetes. The authors have proposed a procedure to study blood and erythrocyte DHAA reductase activity in suspension in health and in insulin-dependent diabetes mellitus by means of redoxstatometry using a device of original design. A significant acceleration of RE transfer through the erythrocyte membrane was detected in diabetes. A lowered participation in this process of the AA in equilibrium DHAA "shuttle" system was recorded in the blood of patients with diabetes mellitus what was mostly expressed under the conditions of acidosis in vitro. Probably "shuttle" function in diabetes was provided by some other redox system which might be located in the plasma. The predominant functioning of this redox system and a decrease of DHAA reductase activity in diabetes resulted in the accumulation of DHAA in the blood of patients with type I diabetes mellitus.
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PMID:[Cause of dehydroascorbic acid accumulation in the blood of patients with insulin-dependent diabetes mellitus]. 398 93

Microvessels in the cheek pouch of the hamster were investigated to determine their structural, reactivity, and permeability characteristics after the induction of diabetes. To induce diabetes, hamsters were injected with streptozotocin (50 mg/kg body wt./day, i.p., for 3 days). Vehicle-injected, age-matched hamsters were the controls. Diabetic hamsters were characterized by elevated serum glucose (greater than 300 mg/dl) and triglycerides and decreased serum insulin (50%). Microvascular studies were completed on cheek pouch microvessels suffused with Ringer's solution (37 degrees C, pH 7.4) bubbled with 95% N2-5% CO2. Vascular dimensions and reactivity of selected arterioles and venules to microapplications of norepinephrine were determined with a video micrometer using intravital microscopy. Restrictiveness of the microvascular membranes to fluorescein-labeled dextran fractions (mol wt: 150,000; 40,000; 20,000 daltons) was measured by determining the number of leaky sites. Stimulation of membrane permeability by histamine was investigated. There were no major alterations in arteriolar lumen and wall diameters, whereas venular lumen diameters were increased in hamsters diabetic for two months. Likewise, arteriolar responses to norepinephrine were not altered by diabetes; however, venular responses were decreased at two months. The restrictiveness of the vascular membrane to various dextran fractions was dramatically decreased in the diabetic animals at two months. Histamine did not alter microvascular leakage in the diabetic as it did in the normal hamsters. These studies indicate that microvascular alterations, venular dilation, and increased permeability to large molecules occur in the diabetic hamster within two months after the induction of diabetes.
Diabetes 1981 Feb
PMID:Microvascular alterations develop in Syrian hamsters after the induction of diabetes mellitus by streptozotocin. 616 95

Nine non-insulin-dependent diabetics were studied before and after 3 weeks on an isoenergetic high-fiber/high-starch/low-fat diet (alternative diet), and nine non-insulin-dependent diabetics were studied on their usual diet. In the group that ate the alternative diet, the intake of fiber and starch increased 120% and 53%, whereas fat intake decreased 31%. Diabetes control improved as demonstrated by decreased fasting plasma glucose (P less than 0.05) and 24-hour urinary glucose excretion (P less than 0.05). The in vivo insulin action increased (KIVITT increased, P less than 0.05) with no change in fasting serum insulin levels. In fat cells obtained from patients in the alternative-diet group, insulin receptor binding increased (P less than 0.05) after the change of diet. Insulin binding to purified monocytes (more than 95% monocytes) also increased (P less than 0.05), whereas no change was found in insulin binding to erythrocytes. When lipogenesis was studied at a tracer glucose concentration at which glucose transport seems to be rate limiting, insulin sensitivity increased (P less than 0.02). This is the predicted consequence of increased receptor binding. Moreover, when CO2 production and lipogenesis were studied at a higher glucose concentration, where steps beyond transport seem to be rate limiting for glucose metabolism, increased insulin sensitivity was also observed. In contrast, no change was found in maximal insulin responsiveness. Fat and blood cells from the patients who continued on their usual diet showed no changes of the mentioned quantities.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Increased insulin binding to adipocytes and monocytes and increased insulin sensitivity of glucose transport and metabolism in adipocytes from non-insulin-dependent diabetics after a low-fat/high-starch/high-fiber diet. 631 51

To assess possible cellular mechanisms of in vitro resistance in noninsulin-dependent diabetes mellitus (NIDDM), maximum insulin-stimulated glucose transport and utilization and insulin binding were measured in adipocytes isolated from weight-matched normal glycemic subjects and patients with NIDDM. Glucose transport rate was determined by measuring the amount of [U-14C]-D-glucose taken up by incubating adipocytes at trace concentrations of glucose (300 nM), and glucose metabolism by estimating the amount of lactate, CO2, triglyceride, and total glucose carbons retained in the cells following incubating at 5.5 mM glucose. Insulin binding was measured at 50, 100, and 200 pM [mono125I-tyrosinyl A14]insulin. Both maximum insulin-stimulated glucose transport and utilization in adipocytes from diabetic subjects were 40% (P less than 0.01) and 32% (P less than 0.05) lower, respectively, than values obtained for subjects with normal glucose tolerance. In addition, the maximum capacity of glucose transport was correlated with the maximum capacity of glucose utilization (r = 0.81, P less than 0.001). Furthermore, fasting plasma glucose concentrations of diabetic subjects were negatively correlated with both maximum insulin-stimulated glucose transport (r = -0.56, P less than 0.05) and glucose utilization (r = -0.67, P less than 0.05). Since basal glucose transport in adipocytes from diabetic subjects was also 33% lower than in adipocytes from normal subjects, there was no change in the relative ability of insulin to stimulate glucose transport. However, there was a 64% decrease in the sensitivity of the glucose transport system to insulin (P less than 0.05), unrelated to concomitant changes in insulin binding. These results demonstrate that both maximal insulin-stimulated glucose transport and utilization, and the sensitivity of the glucose transport system to insulin, was decreased in adipocytes isolated from subjects with NIDDM. These in vitro defects were associated with impaired glucose metabolism in vivo, consistent with the view that the metabolic alterations observed at the cellular level may contribute to the in vivo insulin resistance of NIDDM.
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PMID:In vitro insulin resistance of human adipocytes isolated from subjects with noninsulin-dependent diabetes mellitus. 635 80

It has been previously reported that maximum insulin-stimulated glucose transport and utilization were both decreased, while basal lipolysis was increased in adipocytes from obese subjects with noninsulin-dependent diabetes mellitus (NIDDM). To determine whether these values can be returned towards those obtained in equally obese subjects with normal glucose tolerance, these measures of adipocyte metabolism were quantified in 10 NIDDM subjects before and after control of hyperglycemia with insulin. The results demonstrate that maximum insulin-stimulated glucose transport (P less than 0.02) and glucose incorporation into triglyceride (P less than 0.01) and CO2 (P less than 0.05) (at 5.5 mM glucose) increased and basal lipolysis decreased (P less than 0.05) after 4 wk of insulin treatment. In contrast, glucose incorporation into lactate and other glycolytic metabolites (at 5.5 mM glucose), and sensitivity of glucose transport to insulin, did not improve with insulin therapy. The latter occurred despite an increase in insulin binding (P less than 0.01). Finally, the improvement in maximal insulin-stimulated glucose transport correlated with the fall in fasting hyperglycemia (r = 0.77, P less than 0.01). These findings demonstrate that several of the abnormalities of carbohydrate and lipid metabolism recently noted to be present in adipocytes from patients with NIDDM can be shown to significantly improve with insulin treatment.
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PMID:Improvement in in vitro insulin action after one month of insulin therapy in obese noninsulin-dependent diabetics. Measurements of glucose transport and metabolism, insulin binding, and lipolysis in isolated adipocytes. 635 58

Sprague-Dawley male rats were injected at 2 days of age with streptozotocin (SZ). At 4 wk of age the fed plasma glucose concentration of the SZ group was 151 +/- 6 mg/dl as compared with 133 +/- 4 for the control group. The fed plasma insulin values were indistinguishable, however. In response to an intraperitoneal glucose challenge the SZ group had marked glucose intolerance and virtually no rise in plasma insulin. After a meal challenge the SZ group also had glucose intolerance, but plasma insulin responses were similar to those of the control. The pancreata of the 4-wk-old rats were perfused in vitro and the SZ group had essentially no response to glucose, but did respond to arginine. Adipocytes of the 4-wk-old SZ rats had impaired glucose conversion to CO2 similar to that seen in the more hyperglycemic 6-wk-old SZ rats. Castration carried out at about 3 wk of age did not influence the hyperglycemia seen at 6 wk of age and later. These data indicate that 4-wk-old SZ rats, while having near-normal plasma glucose levels and normal plasma insulin values, have clearly abnormal B-cell and adipocyte function. With increasing age and weight gain these SZ rats develop frank hyperglycemia.
Diabetes 1984 Feb
PMID:Abnormal islet and adipocyte function in young B-cell-deficient rats with near-normoglycemia. 636 71

BALB/c female streptozotocin-diabetic mice were transplanted under the left kidney capsule with syngeneic or allogeneic CBA 17-day fetal pancreases that had been organ-cultured for 23 days. Two isografted groups received a single graft per recipient, cultured normally (90% air, 10% CO2), or in an oxygen-rich atmosphere (90% O2, 10% CO2): 13/14 and 12/13 respectively became normoglycemic. The 3rd and 4th groups were transplanted each with 1 and 3 allogeneic fetal pancreases per recipient, which had been cultured in 90% O2: 5/12 and 2/13 mice respectively had surviving allografts after 104 days, and 2/5 of the former and both of the latter had become normoglycemic. Five out of the seven surviving allografts contained foci of infiltrating lymphocytes. After removal of the kidneys containing the grafts, surviving mice were retransplanted under the right kidney capsule, each with 2 CBA fetal pancreases which had been cultured for only 4 days under normal conditions--hence they were fully immunogenic. Rejection of the secondary allografts was delayed in the long-term, primary allograft acceptors, suggesting that a degree of tolerance had developed. This study demonstrates that it is possible for a single, cultured fetal pancreas to survive indefinitely and reverse diabetes after transplantation to a fully allogeneic, nonimmunosuppressed recipient.
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PMID:Reduction of the immunogenicity of fetal mouse pancreas allografts by organ culture in 90 percent oxygen. 641 3


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