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)

Ouabain-sensitive ATPase activity (expressed as nmol ADP produced/h/mg (wet) nerve +/- SEM) was measured in homogenates of sciatic nerve from control rats and rats with streptozotocin-induced diabetes of 8 wk duration. Nerves from diabetic rats showed activity (21.7 +/- 2.0) which was significantly (p less than 0.05) less than that of controls (34.6 +/- 4.8). These animals also showed a deficit in conduction velocity (m/sec +/- SEM) of sciatic nerve motoneurones (50.7 +/- 0.4 vs. 57.7 +/- 0.7 in controls; p less than 0.001). In parallel, matched control and diabetic groups were treated daily with mixed gangliosides extracted from bovine brain (10 mg/kg i.p.). After such treatment for 8 wk the deficit in ouabain-sensitive ATPase activity did not develop in the diabetic group (treated diabetics, 31.9 +/- 3.7; treated controls, 34.5 +/- 3.8). However, the treatment did not affect the deficit in motor nerve conduction velocity (treated diabetics, 50.9 +/- 1.1 vs. treated controls, 57.9 +/- 0.5; p less than 0.001). Accumulations of the polyol pathway metabolites--sorbitol and fructose--together with depletion of nerve myo-inositol were similar in both diabetic groups. These data indicate an etiology for the conduction velocity deficit which differs from that of the deficit in ouabain-sensitive ATPase.
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PMID:Ganglioside treatment of diabetic rats; effects on nerve adenosine triphosphatase activity and motor nerve conduction velocity. 296 93

There are conflicting reports of platelet function abnormalities in diabetic patients without vascular complications. We have studied in vitro platelet aggregation, using platelet rich plasma and whole blood techniques, in 18 patients with uncomplicated insulin-dependent diabetes and a matched group of 24 non-diabetic subjects. In addition we measured plasma beta-thromboglobulin levels in these groups, as an index of in vivo platelet activation, and compared the indices of in vitro and in vivo platelet function before and after maximal bicycle exercise. Before exercise plasma beta-thromboglobulin levels and platelet sensitivities to ADP, collagen or adrenaline, as assessed by both methods of platelet aggregation, were the same in diabetic and control subjects. Both groups showed similar increases in beta-thromboglobulin levels and in platelet sensitivity to all agonists in whole blood following exercise. Using platelet rich plasma there were no changes in platelet sensitivity in either group after exercise. In non-diabetic subjects, increases in noradrenaline levels after exercise correlated with increases in platelet sensitivity to adrenaline in whole blood. This was not observed in the diabetic group. Abnormalities of platelet function, using the techniques described here, are not present in diabetic patients who do not have clinical evidence of vascular disease.
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PMID:Platelet function in uncomplicated insulin-dependent diabetic patients at rest and following exercise. 297 Sep 23

The effect of 24 hours and 7 days treatment with nisoldipine (10 mg, twice daily) on platelet function was studied in 12 normotensive volunteers of whom six were insulin-dependent diabetics without clinical evidence of vascular complications. Platelet aggregation was assessed by platelet rich plasma (PRP) and whole blood (WB) techniques. In addition, the effect of nisoldipine on platelet hyperaggregability following exercise was assessed. After taking nisoldipine for 24 hours, in vitro platelet hypersensitivity to adenosine diphosphate was observed in PRP (p less than 0.01) and WB (p less than 0.01), to adrenaline in WB (p less than 0.03), and to collagen in PRP (p less than 0.02). After seven days treatment, platelet sensitivities to all agonists at rest in both PRP and WB showed no differences from pre-treatment values. Exercise-induced platelet hypersensitivity in WB to all three agonists was unchanged after nisoldipine treatment. Plasma noradrenaline and adrenaline concentrations increased after 24 hours treatment, although changes in agonist EC50s at 24 hours were not related to changes in plasma catecholamine levels. No effects of nisoldipine were observed on platelet thromboxane B2 release in PRP, or on plasma beta-thromboglobulin levels. No differences in the effects of nisoldipine were observed between diabetic and non-diabetic subjects. Nisoldipine treatment for seven days is not associated with altered platelet function, but platelet hypersensitivity is observed after treatment for 24 hours in both insulin-dependent diabetics and controls.
Diabetes Res 1988 Jul
PMID:Ex vivo platelet studies following oral nisoldipine in normotensive insulin-dependent diabetics and non-diabetic controls. 297 36

Following our observations that non-esterified fatty acids (NEFAs) inhibit prostacyclin (PGI2) synthesis and accelerate PGI2 degradation, we have examined the possibility that NEFAs may also affect the activity of vascular ADPase, which converts the platelet pro-aggregatory adenosine diphosphate (ADP) to adenosine, an inhibitor of aggregation and a vasodilator. Incubation, in buffer solutions, of NEFAs with intact rat aortic rings significantly inhibited vascular ADPase activity. This inhibition was more marked at higher NEFA concentrations and with unsaturated fatty acids (linoleic, oleic) than with a saturated fatty acid (stearic). This NEFA-mediated inhibition of vascular ADPase activity could be prevented by the prior addition of fatty acid-free human albumin to the incubate. Similarly, the vascular rings recovered from NEFA-mediated inhibition by washing and further incubation in NEFA-free buffer. Therefore, elevated NEFA concentrations inhibit, reversibly, an enzyme system which is thought to protect the vascular endothelium. The NEFA-mediated inhibition of ADPase activity was also confirmed following incubation of rat aortic rings in human serum enriched with exogenous NEFA. These findings provide further evidence that NEFAs may contribute to the pathogenesis of vascular disease associated with diabetes mellitus and of other conditions where an elevation of serum NEFA concentrations occurs.
Diabetes Res Clin Pract
PMID:The effect of non-esterified fatty acids on vascular ADP-degrading enzyme activity. 302 42

Vitamin E deficiency is associated with increased platelet aggregation, which can be normalized through vitamin E supplementation. In diabetes, increased platelet thromboxane A2 (TXA2) production is correlated with decreased platelet vitamin E content. We therefore investigated the effect of 400 mg DL-alpha-tocopherol acetate daily for 4 wk on ADP- and collagen-induced platelet aggregation and platelet TXA2 production in 22 type I (insulin-dependent) diabetic patients without macroangiopathy and with no or only minimal microangiopathy by a double-blind placebo-controlled crossover study. Platelet aggregation was induced in platelet-rich plasma by two or three different concentrations of ADP and collagen. TXA2 was measured by the stable spontaneous breakdown product thromboxane B2 by a specific radioimmunoassay. Whereas metabolic control remained unchanged during the study period, platelet TXA2 production was significantly (P less than .05 and P less than .01) reduced at each ADP concentration and at two of three collagen concentrations. Because increased TXA2 production of diabetic platelets is thought to play an important pathogenetic role in diabetic angiopathy, we conclude that vitamin E treatment could be beneficial with respect to platelet-vessel-wall interaction and thus might be promising for the prevention of diabetic angiopathy.
Diabetes 1988 Sep
PMID:Effect of vitamin E supplementation on platelet thromboxane A2 production in type I diabetic patients. Double-blind crossover trial. 304 91

Several pathways are activated when platelets aggregate and undergo the release reaction. We have examined the relative importance of these pathways in the responses to adenosine diphosphate (ADP), thrombin, or collagen of washed platelets from rats with diabetes induced by streptozocin. ADP-induced aggregation was enhanced without the release reaction with platelets from diabetic rats. Collagen-induced aggregation and release, and the adherence of platelets to collagen-coated glass were similar with platelets from diabetic and control rats. Thrombin (1 U/ml) induced more extensive loss of tritium from 3H-arachidonic acid-labeled platelets from diabetic rats than from control rats. Platelet aggregation and the release of 14C-serotonin from prelabeled platelets was greater in response to low concentrations of thrombin (0.04 U/ml). Creatine phosphate-creatine phosphokinase (CP/CPK) and aspirin completely blocked aggregation and partially blocked the release of granule contents from platelets from control and diabetic rats exposed to this low concentration of thrombin. Thus, the enhanced platelet aggregation in response to low concentrations of thrombin was likely mediated in part by released ADP and products formed from arachidonate. In contrast, with a higher concentration of thrombin (0.0625 U/ml), CP/CPK and aspirin did not inhibit the increased sensitivity of diabetic platelets to thrombin-induced aggregation and release; the concentrations of CP/CPK completely blocked aggregation induced by ADP (10 mumol/L), and the aspirin inhibited thromboxane B2 production in response to thrombin (1 U/ml) by 99%. Thus, a thrombin-induced pathway(s) of aggregation and release independent of released ADP and the products of arachidonate metabolism is enhanced in platelets from diabetic rats.
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PMID:Pathways responsible for platelet hypersensitivity in rats with diabetes. I. Streptozocin-induced diabetes. 308 May 38

The discovery of a group of spontaneously diabetic rats has made it possible to examine changes in diabetic animals in the absence of possible confounding toxic effects of diabetogenic agents. The responses of washed platelets to adenosine diphosphate (ADP), thrombin, or collagen have been compared with platelets from spontaneously diabetic rats (these rats were hyperglycemic), their nondiabetic littermates (normoglycemic), and control rats from the same colony. Platelets from the diabetic rats aggregated more extensively in response to ADP than did platelets from the nondiabetic littermates or control animals. In contrast, platelet aggregation and release of granule contents in response to a low thrombin concentration (0.05 U/ml) were greater with platelets from diabetic rats and nondiabetic littermates than with platelets from control rats. A similar effect of collagen on the release of platelet serotonin was observed. Except at low concentrations of thrombin, the enhanced sensitivity to thrombin-induced aggregation and release of granule contents from platelets from diabetic rats or their nondiabetic littermates could not be inhibited by creatine phosphate-creatine phosphokinase (CP/CPK) and aspirin (CP/CPK used at concentrations that inhibited aggregation induced by ADP [10 mumol/L] and aspirin at concentrations that inhibited thromboxane B2 production induced by thrombin [1 U/ml] by 99%). Loss of radioactivity from platelets labeled with 3H-arachidonic acid and the amount of thromboxane B2 formed in response to high concentrations of thrombin (1 U/ml) was greater from platelets from the diabetic rats or their nondiabetic littermates than from control animals. Thus the effect of diabetes on this aspect of arachidonate metabolism is not primarily determined by blood glucose levels.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Pathways responsible for platelet hypersensitivity in rats with diabetes. II. Spontaneous diabetes in BB Wistar rats. 308 May 39

Platelet-rich plasma was prepared from 47 patients with non-insulin-dependent diabetes treated with glibenclamide and metformin, and 21 controls. The release of radio-labelled 5-hydroxytryptamine in response to aggregating agents (adenosine diphosphate, adrenaline and sodium arachidonate), and the effects on release of a selective thromboxane inhibitor (UK-34787) were investigated. Subsequently, 20 of the diabetic subjects were chosen at random for treatment with insulin; the remainder continued to take tablets. Platelet studies were then repeated, in all patients, after 4 and 6 months. The results showed an association between platelet behaviour and the presence of vascular complications, and were consistent with previous observations of reduced platelet reactivity in patients taking sulphonylureas. There was no correlation of platelet reactivity with blood glucose, glycosylated haemoglobin or lipid levels.
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PMID:Platelet behaviour in non-insulin-dependent diabetes--influence of vascular complications, treatment and metabolic control. 309 92

Previous studies have suggested that the sulphonylurea hypoglycaemic agent gliclazide has specific effects in inhibiting platelet aggregation, and other haemorrheological effects that could be beneficial in preventing diabetic microangiopathy. A double-blind trial of the effect of gliclazide on platelet aggregatory responses was performed in 51 diabetic patients. Insulin- and non-insulin-treated diabetics were assessed during an initial 12-month placebo period, and in a subsequent 24-month active period after randomisation into placebo and gliclazide groups in insulin-treated patients or to glibenclamide and gliclazide groups in non-insulin-treated patients. Platelet-rich plasma was obtained from patients at intervals of at least 6 months during the trial. Circulating platelet aggregates were estimated, platelet aggregation was studied in response to three concentrations of adrenaline, ADP and collagen and thromboxane B2 produced by platelets exposed to collagen was measured. No significant effect of gliclazide was demonstrated on any parameter of platelet function evaluated.
Diabetes Res Clin Pract 1988 Jan 07
PMID:Lack of effect of gliclazide on platelet aggregation in insulin-treated and non-insulin-treated diabetes: a two-year controlled study. 312 29

Twenty-three patients with essential hypertension and diabetes mellitus type II were treated with the calcium antagonist diltiazem (120 to 180 mg twice daily). The mean dose was 307 mg/day. The study was a double-blind, placebo-controlled, crossover design. All measurements were performed 12 to 14 hours after drug intake. Blood pressure, heart rate and forearm blood flow were measured noninvasively. Platelet function was studied by measuring adenosine diphosphate-induced platelet aggregation and the platelet specific proteins, beta thromboglobulin and platelet factor 4. Thromboxane B2 formation in serum and the plasma concentration of diltiazem and its metabolites N-demethyldiltiazem, deacetyldiltiazem and N-demethyldeacetyldiltiazem were measured both during placebo and diltiazem treatment. Diabetic control was evaluated by following HbA1C, fasting blood glucose and urinary glucose. Diltiazem reduced both systolic and diastolic (supine and standing) blood pressure significantly. Forearm blood flow was significantly increased by 32%, p less than 0.05. Supine heart rate decreased significantly, while no such change was seen in the standing position. No significant changes were observed in platelet function during diltiazem treatment. There was no relation between the observed blood pressure reduction and the plasma concentration of diltiazem or its metabolites. A positive correlation between the change in heart rate and the metabolite N-demethyldeacetyldiltiazem was observed (r = 0.647, p = 0.005). Three patients were excluded during diltiazem treatment (skin exanthema, headache and atrial fibrillation) and 1 during placebo treatment (angina pectoris). No negative effect on diabetes control was observed. Thus, diltiazem could be used for treatment of hypertension in diabetic patients.
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PMID:Diltiazem in hypertensive patients with type II diabetes mellitus. 317 28


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