UMLS:C0011860 - FACTA Search

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Query: UMLS:C0011860 (type 2 diabetes)
57,723 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Aldose reductase (EC 1.1.1.21) is implicated in the pathophysiology of diabetic complications. In this paper we determined the activities of aldose reductase and ATPases of the erythrocytes in 17 patients with Type 2 (non-insulin-dependent) diabetes mellitus (NIDDM). In the aldose reductase assay we used fluorometric method to avoid the disturbance of hemoglobin. With dihydronicotinamide adenine dinucleotide (NADH), we verified it was aldose reductase but not aldehyde reductase II that was activated in the erythrocytes of the patients with NIDDM. The aldose reductase activity of the erythrocytes in the patients was significantly higher (P less than 0.01) than that in the controls. The activity of Na+/K(+)-ATPase of the patients was significantly lower (P less than 0.01) than that of the controls. The activities of Ca(2+)-ATPase and Mg(2+)-ATPase on the erythrocyte membranes of the patients were similar to those of the controls. At the same time we measured the seven nucleotide concentrations in the erythrocytes of the patients. In this experiment we used ultrafiltration method, instead of acid precipitation to make it possible to determine dihydronicotinamide adenine dinucleotide phosphate (NADPH) and NADH. The concentrations of ATP, ADP and AMP were similar to those of the controls. The concentrations of NADPH, NAD+ and NADH in the erythrocytes of the patients were significantly lower (P less than 0.01, 0.05 and 0.05 respectively) than those of controls. The concentration of nicotinamide adenine dinucleotide phosphate (NADP+) in the patients was significantly higher (P less than 0.01) than that of controls.
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PMID:Activities of aldose reductase, ATPases, and nucleotide concentrations of erythrocytes in patients with type 2 (non-insulin-dependent) diabetes mellitus. 166 Dec 22

Calcium antagonists have become widely used as antihypertensive treatment in diabetic patients, although data concerning a possible influence on glucose tolerance, insulin secretion, and platelet aggregation during long-term, placebo-controlled studies are lacking. Therefore, the effects of isradipine, a new calcium antagonist, on glucose tolerance and insulin secretion during a 75-g oral glucose tolerance test (OGTT) and on ADP- and collagen-induced maximum first-wave platelet aggregation (Tmax%) were studied in 11 type II diabetic patients with borderline hypertension. After a 2-week washout period, patients were treated with placebo or isradipine for 8 weeks in a double-blind, crossover study. Systolic blood pressure was lowered significantly after isradipine therapy compared to placebo (127 +/- 3 vs. 139 +/- 6 mm Hg; p less than 0.05). Fasting blood glucose (153 +/- 14 vs. 157 +/- 16 mg/dl; NS), glucose levels, and basal (17 +/- 4 vs. 17 +/- 2 mU/ml; NS) and stimulated insulin during the OGTT remained unchanged after either treatment. Platelet aggregation after stimulation with different concentrations of ADP and collagen showed no significant differences. These data indicate that calcium antagonists have no adverse effects on glucose tolerance, insulin secretion, and platelet aggregation in type II diabetes mellitus, and are therefore useful in the treatment of hypertension in diabetic patients.
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PMID:Platelet aggregation and metabolic control are not affected by calcium antagonist treatment in type II diabetes mellitus. 169 14

Diabetic individuals frequently have platelet hyperaggregability and increased thromboxane (TXB2) production. To evaluate whether improvement of metabolic control or changes in fatty acid composition of serum lipids might alter thromboxane (TXB2) formation and platelet function, we followed up 25 newly diagnosed type 2 diabetics without angiopathy for about 6 months. Improvement of metabolic control (HbA1, fell from 12.0 +/- 0.3 to 9.0 +/- 0.3%; p less than 0.01) was associated with significant decrease in total cholesterol, triglycerides, and ratios of total cholesterol/HDL-cholesterol and LDL-cholesterol/HDL-cholesterol. Palmitic acid of phospholipids decreased significantly, whereas eicosapentaenoic acid increased. Regardless of this, the ADP-induced platelet aggregability and sensitivity were not altered. There was no effect whatever on the TXB2 synthesis capacity of clotting whole blood (204.9 +/- 25.0 vs 222.8 +/- 32.0 ng/ml) over 6 months of treatment. Platelet aggregability and TXB2 formation were not correlated to the degree of metabolic control, nor were there any correlations to serum lipids and their fatty acid composition. Thus, we are tempted to speculate that glucose metabolism in diabetes itself does not affect platelet aggregation or TXB2 formation in type 2 diabetes mellitus.
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PMID:Thromboxane production and platelet aggregation in type 2 diabetes mellitus without vascular complications. 174 4

In the present study the effects of a short term intensive glycaemic control obtained with subcutaneous insulin therapy on lipids and apoprotein levels, platelet aggregation, platelet sensitivity to prostacyclin and platelet thromboxane production were investigated in 20 patients with type 2 diabetes and vascular disease. In 11 out of the 20 patients there was a significant improvement of glycaemic control (fructosamine reduction). Only with tight improvement of glycaemic control there was significant change in the concentration of ADP and collagen required to produce 50% of the maximum aggregation wave response, in the responsiveness of platelet to PGI2 and in the TxB2 synthesis. Lower Apo B levels were also shown in the tight control group suggesting that Apo B changes may have influenced platelet aggregation and thromboxane synthesis.
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PMID:Platelet function in patients with type 2 diabetes mellitus: the effect of glycaemic control. 266 42

Platelet aggregate ratios (PAR) were determined, and threshold concentrations (ED50) of epinephrine, adenosine diphosphate (ADP), and collagen were estimated by platelet aggregometry in 88 IDDM and 52 NIDDM patients without hyperlipidaemia or azotaemia, and in 106 healthy volunteers to revise the question of hyperaggregability in diabetes. ED50-s showed a tendency for negative correlation with age, significant in female but not in male controls. Similar trends were obtained in IDDM and NIDDM females, but were not in IDDM and NIDDM males. The ED50-s of different aggregating agents positively correlated with each other. ED50-s were higher in men than in women in both controls and IDDM patients. Similar but minor differences were observed between women and men in NIDDM. IDDM patients had significantly lower PAR and collagen ED50, and a tendency for epinephrine and ADP to be lower as compared to the sex- and age-matched controls. The differences of PAR were the same, while those of ED50-s were diminished in older NIDDM patients compared to the matched controls. It is concluded, that the previously observed general hyperaggregability in diabetic patients may have partly resulted from sex- and age differences. Threshold concentrations should be compared to sex- and age-matched controls.
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PMID:Sex- and age-dependence of platelet aggregation in diabetes mellitus. 341 60

Increased platelet reactivity has been suggested in the pathogenesis of both arteriosclerosis and diabetic microangiopathy. Therefore, platelet function and platelet enzyme activities were assessed in a large group of 357 diabetics (256 patients with IDDM, aged 16-49 and 101 patients with NIDDM, aged 50-78) and 163 matched controls, and related to photographically documented retinopathy (Rd) and to peripheral vascular disease (PVD) as well as to plasma levels of von Willebrand factor (VIII R:Ag) as an indicator of endothelial damage. Patients with IDDM had increased platelet aggregation (PA, expressed as microM ADP threshold concentration) before Rd was detectable in comparison to control subjects (P less than 0.01). PA was further increased in patients with advanced Rd (P less than 0.01), whereas 20 newly diagnosed diabetics with IDDM exhibited normal PA. Patients with minimal Rd did not differ from patients without Rd. Plasma beta-thromboglobulin (reflecting platelet consumption in vivo) was enhanced significantly in patients with Rd only (P less than 0.05), as was malondialdehyde (MDA) production of platelets (as a measure of platelet endoperoxide formation). Factor VIII-related antigen in plasma was already increased in patients without Rd (P less than 0.05), yet more so in patients with Rd (P less than 0.01). Prostacyclin-stimulated adenylate cyclase activity (ACA) of platelets (as an antiaggregatory enzyme system) was twice as high in diabetics with advanced Rd compared with patients without Rd and with controls (P less than 0.01). Significant correlations were found between PA and plasma F VIII R: Hg, MDA production, and ACA of platelets.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Platelet enzyme activities in diabetes mellitus in relation to endothelial damage. 608 25

We have identified two types of mutants of Chinese hamster ovary cells in which the unique ADP-ribose attachment site in elongation factor 2 (EF-2) is altered, thereby rendering them resistant to diphtheria and Pseudomonas toxins (TOXR). The first is mutant in the gene for EF-2 and possesses a permanently altered, TOXR gene product. The second lacks a component of a posttranslational modification system that converts TOXR EF-2 to the toxin-sensitive (TOXS) state. We postulate that this modification system is involved in the conversion of a single histidine residue in EF-2 to the specific target of toxin-catalyzed ADP-ribosylation, the novel amino acid X. We have designated the second type MOD- mutants. The missing of nonfunctional component in the MOD- mutants can be restored by hybridizing them with either normal TOXS cells or with EF-2 structural gene mutants. The TOXR EF-2 from MOD- mutants is also converted to toxin sensitivity in vitro by incubation with extracts of TOXS or EF-2 gene mutant cells in the presence of an energy-generating system. Our results demonstrate that EF-2 can be synthesized and released from ribosomes in a toxin-resistant form and then converted to toxin sensitivity by posttranslational modification.
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PMID:Posttranslational modification of elongation factor 2 in diphtheria-toxin-resistant mutants of CHO-K1 cells. 692 55

A decreased insulin response, preferentially to glucose, has been considered a hallmark of non-insulin dependent diabetes mellitus (Type 2) in humans. Syndromes resembling human diabetes occur spontaneously in many animal species and can also be induced by treating animals with drugs or viruses, excising their pancreases or manipulating their diet. Among these models, rat diabetes induced by neonatal streptozotocin administration (n-STZ models) has been first recognized as an adequate tool to study the long-term consequences of a gradually reduced beta-cell mass. More recently, the GK (Goto Kakisaki) Wistar rat has become available and is now considered as a promising spontaneous rat model of non-insulin dependent diabetes. We and others have found that defects in insulin secretion and action develop in the n-STZ and the GK models, which in many ways resemble those described in human non-insulin dependent diabetes. This review is aimed to sum up with a comparative approach, the informations so far collected in the n-STZ and GK models concerning the cellular mechanisms leading to the desensitization of their beta-cells to glucose. Taken together, the data reinforce the view that the impairment of glucose-induced insulin release in n-STZ and GK rats is clearly related to a defect in oxidative glycolysis. This leads to a severe decrease in the mitochondrial oxidative catabolism of glucose-derived pyruvate. Its coincides with a lower ATP/ADP ratio in glucose-stimulated islets and a subsequent alteration of ionic events tightly coupled to the fuel function of the hexose in islet cells, i.e. the decrease in K+ conductance.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Glucose refractoriness of pancreatic beta-cells in rat models of non-insulin dependent diabetes. 780 48

The circadian rhythms of platelet aggregation in the whole blood and platelet rich plasma-PRP and plasma serotonin were studied in healthy volunteers (n = 10) and diabetic patients (type II diabetes mellitus n = 12). Platelet aggregation in the whole blood induced by collagen (2 micrograms/ml), ADP (10 microM), arachidonic acid (0.5 mM) and epinephrine (10 microM), and in PRP induced by collagen (2 micrograms/ml), ADP (5 microM), arachidonic acid (250 microM), epinephrine (10 microM) and serotonin-5-HT (1 microM) was measured at 7:30, 11:30, 17:00, 23:00, 4:00 and 7:00. In healthy subjects collagen- and ADP-induced platelet aggregation in the whole blood was significantly lower at 23:00 and 4:00 when compared to values at 7:30. In PRP normal and diabetic platelet response was the lowest during the night. Diabetic platelets exhibited an enhanced response to 5-HT starting from 17:00 until 4:00 when compared to 7:30. 5-HT-induced platelet aggregation was found to be significantly higher throughout the study in DM patients over controls in parallel to plasma 5-HT. In healthy volunteers plasma 5-HT was higher at 17:00 when compared to baseline values, whereas in DM patients plasma 5-HT was elevated starting from 17:00 until 4:00. An enhanced response of diabetic platelets to 5-HT together with elevated plasma 5-HT levels may contribute, at least partly, to the pathogenesis of diabetic vasculopathy and 5HT2 receptor blockers may be of value in DM patients.
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PMID:Daily variations of platelet aggregation in relation to blood and plasma serotonin in diabetes. 799 57

Physiologically, a postprandial glucose rise induces metabolic signal sequences that use several steps in common in both the pancreas and peripheral tissues but result in different events due to specialized tissue functions. Glucose transport performed by tissue-specific glucose transporters is, in general, not rate limiting. The next step is phosphorylation of glucose by cell-specific hexokinases. In the beta-cell, glucokinase (or hexokinase IV) is activated upon binding to a pore protein in the outer mitochondrial membrane at contact sites between outer and inner membranes. The same mechanism applies for hexokinase II in skeletal muscle and adipose tissue. The activation of hexokinases depends on a contact site-specific structure of the pore, which is voltage-dependent and influenced by the electric potential of the inner mitochondrial membrane. Mitochondria lacking a membrane potential because of defects in the respiratory chain would thus not be able to increase the glucose-phosphorylating enzyme activity over basal state. Binding and activation of hexokinases to mitochondrial contact sites lead to an acceleration of the formation of both ADP and glucose-6-phosphate (G-6-P). ADP directly enters the mitochondrion and stimulates mitochondrial oxidative phosphorylation. G-6-P is an important intermediate of energy metabolism at the switch position between glycolysis, glycogen synthesis, and the pentose-phosphate shunt. Initiated by blood glucose elevation, mitochondrial oxidative phosphorylation is accelerated in a concerted action coupling glycolysis to mitochondrial metabolism at three different points: first, through NADH transfer to the respiratory chain complex I via the malate/aspartate shuttle; second, by providing FADH2 to complex II through the glycerol-phosphate/dihydroxy-acetone-phosphate cycle; and third, by the action of hexo(gluco)kinases providing ADP for complex V, the ATP synthetase. As cytosolic and mitochondrial isozymes of creatine kinase (CK) are observed in insulinoma cells, the phosphocreatine (CrP) shuttle, working in brain and muscle, may also be involved in signaling glucose-induced insulin secretion in beta-cells. An interplay between the plasma membrane-bound CK and the mitochondrial CK could provide a mechanism to increase ATP locally at the KATP channels, coordinated to the activity of mitochondrial CrP production. Closure of the KATP channels by ATP would lead to an increase of cytosolic and, even more, mitochondrial calcium and finally to insulin secretion. Thus in beta-cells, glucose, via bound glucokinase, stimulates mitochondrial CrP synthesis. The same signaling sequence is used in the opposite direction in muscle during exercise when high ATP turnover increases the creatine level that stimulates mitochondrial ATP synthesis and glucose phosphorylation via hexokinase. Furthermore, this cytosolic/mitochondrial cross-talk is also involved in activation of muscle glycogen synthesis by glucose. The activity of mitochondrially bound hexokinase provides G-6-P and stimulates UTP production through mitochondrial nucleoside diphosphate kinase. Pathophysiologically, there are at least two genetically different forms of diabetes linked to energy metabolism: the first example is one form of maturity-onset diabetes of the young (MODY2), an autosomal dominant disorder caused by point mutations of the glucokinase gene; the second example is several forms of mitochondrial diabetes caused by point and length mutations of the mitochondrial DNA (mtDNA) that encodes several subunits of the respiratory chain complexes. Because the mtDNA is vulnerable and accumulates point and length mutations during aging, it is likely to contribute to the manifestation of some forms of NIDDM.(ABSTRACT TRUNCATED)
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PMID:Mitochondria and diabetes. Genetic, biochemical, and clinical implications of the cellular energy circuit. 854 53

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