Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P01275 (glucagon)
 26,492 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The pathophysiological role of incretin in diabetes mellitus has not been established. We therefore examined the effects of glucagonlike peptide I-(7-36)-amide (truncated GLP-I) and gastric inhibitory polypeptide (GIP) on insulin and glucagon release from isolated perfused pancreases of diabetic rats (12-14 wk of age, mean +/- SE fasting plasma glucose 8.9 +/- 0.6 mM, n = 25) after an injection of 90 mg/kg streptozocin on the 2nd day after birth and compared the results with those of nondiabetic control rats. In diabetic rats, the infusion of 1 nM GLP-I or GIP in perfusates with varying glucose concentrations (2.8, 5.6, 8.3, 11.1, or 22.2 mM) caused a nearly equal degree of insulin stimulation from a similar basal insulin level. Meanwhile, basal and GLP-I- or GIP-stimulated insulin release increased in correlation with the ambient glucose concentration in nondiabetic rats. The degree of stimulation of insulin release at glucose concentrations of 5.6 mM in diabetic rats was approximately 33% that of nondiabetic rats. The stimulation potency was the same between GLP-I and GIP. The insulin treatment for diabetic rats (5 U/kg NPH insulin at 0900 and 2100 for 6 days) brought only a slight improvement in the glucose dependency of GLP-I-stimulated insulin release. The effects of GLP-I and GIP on glucagon release were completely opposite. GLP-I suppressed release; GIP stimulated it. In diabetic rats, the degree of suppression by GLP-I and stimulation by GIP were almost the same with similar basal glucagon levels in the perfusate with varying glucose concentrations.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Reduced insulinotropic effects of glucagonlike peptide I-(7-36)-amide and gastric inhibitory polypeptide in isolated perfused diabetic rat pancreas. 214 78

Secondary failure to oral hypoglycemic agents (OHAs) is a possible outcome for non-insulin-dependent diabetes mellitus (NIDDM) patients and poses a serious therapeutic problem. In this study, we evaluated the effect of adding a single bedtime low-dose NPH insulin injection to the previous ineffective sulfonylurea therapy in 23 NIDDM patients with true secondary failure to OHAs. This treatment schedule was conducted for 3 mo by 18 patients (78%) who completed the study. In these patients, the addition of NPH insulin (0.2 +/- 0.01 IU/kg body wt) greatly decreased fasting and postprandial plasma glucose (P less than .001) and glycosylated hemoglobin (P less than .005). No weight gain was observed in any of the patients studied. Five patients dropped out: 2 patients (9%) due to insufficient compliance, 2 patients (9%) due to the multiple insulin injections required to achieve good metabolic control, and 1 patient (4%) due to recurrent hypoglycemic episodes. No correlation was observed between glucagon-stimulated C-peptide values and amelioration of metabolic control. In conclusion, most NIDDM patients with secondary failure to OHAs may be successfully treated with the addition of a single low-dose bedtime NPH insulin injection, and residual beta-cell function evaluation is not able to predict the effectiveness of the combined treatment.
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PMID:Low-dose bedtime NPH insulin in treatment of secondary failure to glyburide. 250 90

Protamines are cationic fish chromosomal proteins that retard absorption of isophane (NPH) insulins. Protamines are also administered in large doses for heparin neutralization in cardiac procedures. This study used a rapid enzyme-linked immunosorbent assay to examine frequency of protamine antibodies in diabetic and control populations. Antigen specificity of the IgG binding to protamine-coated plates was verified by competitive inhibition with other protamines, histone, glucagon, thyroid-stimulating hormone, arginine, and lysine. All antibodies tested cross-reacted completely with all protamines. Only 4 of 18 had any cross-reactivity with histones. None cross-reacted with the other inhibitors. In population surveys, 122 (38%) of 319 NPH insulin-treated diabetic subjects, 3 (8%) of 39 diabetic subjects treated with protamine-free lente insulins, and 5 (2.5%) of 202 normal control subjects had protamine antibody. No correlation was found between insulin and protamine antibodies. Because more than one-third of insulin-treated diabetic subjects have circulating IgG specific for protamine, they are potentially at risk for acute immunologic or anaphylactoid reactions when protamine is administered for heparin neutralization.
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PMID:Frequency and specificity of protamine antibodies in diabetic and control subjects. 329 13

Twenty-four diabetic patients receiving insulin were randomized to 3 groups. Group I began self blood glucose monitoring by meter and switched to visually read strips at 3 months. Group II began self blood glucose monitoring by visually read strips and switched to meter readings at 3 months. Group III monitored urine glucoses for the 6 months of the trial. Professional interaction time was the same for all patients and each patient was placed on the same insulin delivery scheme (3 shots NPH and/or regular). Mean C-peptide levels 6 min following intravenous glucagon was comparable in all 3 groups. Patients monitoring blood glucose showed a significant decrease in glycosylated hemoglobin values (p less than 0.01) from patients monitoring urine at 6 months of the trial. Patients subjectively felt meters were more accurate than visual strips but both groups I and II showed lower glycosylated hemoglobin levels (p less than 0.02 at 6 months) and sequence analysis revealed no sequence effect. The trial confirms that blood glucose monitoring technologies have advantages over urine monitoring in helping patients achieve improved glucose levels. Patients perform equally well in terms of blood glucose "control" whether visually read strips or meters are used for initial teaching or maintenance if patients are instructed appropriately in each methodology. These findings have economic implications for large scale treatment programs.
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PMID:A randomized comparative crossover evaluation of glucose monitoring technologies. 652 91

Experiments were conducted to determine the influence of the pancreatic hormones insulin, glucagon, and somatostatin on reticuloendothelial system (RES) phagocytosis both in vivo and in the isolated perfused livers of rats. Chronic pancreatic hormonal treatment consisted of twice daily injections SC of NPH insulin with doses ranging from 0.75 U on day 1 to 9.0 U on day 13 and unchanged doses of glucagon (200 micrograms) and somatostatin (50 micrograms). Chronic treatment with insulin significantly depressed by 48% intravascular phagocytosis of colloidal carbon administered IV at a dose of 8 mg/100 g, while glucagon and somatostatin stimulated macrophage endocytic function by 32% and 26%, respectively, compared to the control value. Acute treatment with the three pancreatic hormones at 30 min prior to carbon administration similarly produced insulin depression as well as glucagon and somatostatin stimulation of RES phagocytosis. Addition of the three hormones at near physiologic concentrations (20 ng/ml for insulin, 10 ng/ml for glucagon, and 5 ng/ml for somatostatin) to the recirculating perfusate of isolated perfused rat livers simultaneous with 24 mg of colloidal carbon likewise resulted in phagocytic reduction after insulin and enhancement after glucagon and somatostatin. Experiments involving insulin in vitro with isolated perfused livers as well as glucose replacement therapy concomitant with insulin in vivo demonstrated that hypoglycemia is not necessary for phagocytic depression by insulin while severe hypoglycemia in the perfusion medium is sufficient to depress carbon uptake by isolated perfused livers independent of insulin. Both pancreatic hormones and the level of glycemia seem to be important in modulating hepatic reticuloendothelial system phagocytosis.
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PMID:Modulation of hepatic reticuloendothelial system phagocytosis by pancreatic hormones. 676 38

The activity of three combinations of regular and NPH human insulin (recombinant DNA) has been compared to that of an intermediate-acting pork insulin in a crossover study in type I diabetic subjects. After a prephase, the patients injected each insulin subcutaneously for 1 wk in different order. During the 5-wk period, daily glucose profiles were self-monitored, except at the end of each week, when blood was sampled for the determination of glucose, HbA1, glycosylated albumin, C-peptide, glucagon, and routine laboratory parameters. Fasting as well as mean daily glucose and mean amplitude of glucose excursions were similar during the treatment with pork and the various human insulin preparations. There was also no significant difference in C-peptide, glucagon, HbA1 or the routine laboratory parameters with each insulin tested. Glycosylated albumin, however, was significantly lower during the test period with intermediate-acting pork insulin and human insulin (25:75 regular:NPH), when compared with the prephase. We conclude that in type I diabetic subjects human insulin in special galenic preparations shows very similar metabolic activity to pork insulin.
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PMID:Crossover study with human insulin (recombinant DNA) in type I diabetic subjects. 676 38

Secondary failure and the requirement is common in patients with non-insulin dependent diabetes mellitus. The combination of sulfonylureas with NPH insulin at bedtime has been proposed to avoid high doses of insulin. We treated 18 patients (2 men, age range 47-76 yr) non respondent to diet and glibenclamide, combining NPH insulin in an average dose of 0.3 +/- 0.03 U/kg BW at bedtime for 6 months. Fasting serum glucose improved from 256 +/- 11 to 132 +/- 6 mg/dl and HbA1C from 13.6 +/- 0.4 to 9.9 +/- 0.2%. Four patients achieved a good control (defined as a HbA1C < 9), 9 a fair control (HbA1C 9.1-10) and 5 persisted with a bad control (HbA1C > 10). Well controlled patients were younger, had a shorter duration of diabetes and had a non significantly higher body mass index. Fasting serum insulin and C peptide levels achieved after glucagon injection were not predictors of the metabolic response to combined therapy. Tolerance to treatment was good, without changes in blood pressure or serum lipids and with a low incidence of hypoglycemia. There was a mean increase of 3.6 kg in body weight. After 6 months of therapy, maximum achieved C peptide values after glucagon increased from 3.3 +/- 0.3 to 4.5 +/- 0.4 ng/ml. It is concluded that combined glibenclamide and NPH insulin at bedtime is useful to treat secondary failure in non-insulin dependent diabetic patients, but their response in variable and non dependent on their beta insular secretion.
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PMID:[Non-insulin-dependent diabetics with secondary failure: insulin therapy at bedtime combined with glibenclamide]. 819 Nov 17

The aim of this study was to compare the metabolic effects of a combination of daytime glibenclamide and evening NPH insulin with intensive insulin treatment (rapid acting insulin before meals and NPH insulin at bedtime) in patients exhibiting secondary failure to sulphonylurea treatment. Thirty-nine mildly obese NIDDM patients (BMI 25.6 +/- 0.5) were randomized after 6 weeks of intensive insulin treatment to either a combination treatment (CT, n = 20) or continued intensive insulin treatment (IT, n = 19). There were no differences between the two groups in age, diabetes duration, BMI, HbA1c, or basal and glucagon stimulated C-peptide. The patients were followed for 1 year and the findings were analysed on an intent to treat basis. Two patients in the CT group were excluded after 2 and 6 months, respectively, due to unacceptably high postprandial glucose values. There was a significant difference in HbA1c between the CT and IT groups at 6 months (8.2 +/- 0.2, n = 19, vs 6.8 +/- 0.4%, n = 19, p < 0.001)), but not at 12 months (7.8 +/- 0.3, n = 18, vs 7.5 +/- 0.4%, n = 19). After the initial intensive insulin treatment, BMI was constant in the CT group but increased significantly at 6 and 12 months in the IT group. We conclude that both treatments are associated with a marked and long-term improvement of glycaemic control. The intensive insulin treatment leads to a more pronounced weight increase which in the long run might have negative effect on overall metabolic control. Therefore, the combination treatment together with intensified education and dietary advice should be regarded as the initial treatment of choice for oral agent failure in moderately obese NIDDM patients.
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PMID:Daytime glibenclamide and bedtime NPH insulin compared to intensive insulin treatment in secondary sulphonylurea failure: a 1-year follow-up. 873 30

The treatment of NIDDM patients with secondary failure to sulphonylurea is a common problem. We performed a crossover study in 50 NIDDM patients with secondary failure to glibenclamide by comparing the addition to sulphonylurea of either a low-dose bedtime NPH insulin or a t.i.d. oral metformin and by analyzing treatment efficacy in relation to patient and disease characteristics. Both combined therapies clearly improved glycaemic control. HbA1 c were similarly reduced by the addition of either bedtime NPH insulin (7.6+/-0.34 vs 8.7+/-0.35, p<0.01) or metformin (7.6+/-0.22 vs 8.6+/-0.31, p<0.01). Also fasting plasma glucose (FPG) and post-prandial plasma glucose (PPPG) significantly decreased (p<0.01) with both treatments. Bed-time NPH insulin was more effective on FPG reduction than metformin (-36+/-2% vs -25+/-2%, p<0.01); in contrast, metformin addition was more effective on PPPG reduction than bedtime NPH insulin addition (-30+/-2% vs 20+/-3%, p<0.01). Serum cholesterol was marginally but significantly decreased after metformin (5.49+/-0.19 vs 5.91 +/-0.18 mM, p<0.05) but not after NPH insulin. Body weight increase was significantly greater after insulin addition than after metformin (1.47+/-0.25 Kg vs 0.64+/-0.17 p=0.02). All patients preferred the addition of metformin rather than NPH insulin. None of the measured clinical and metabolic variables (before treatment FPG and PPPG, HbA1 c, post-glucagon C-peptide levels, insulin sensitivity, patient age, BMI and diabetes duration) significantly correlated to the efficacy of the two combined treatments studied. In conclusion, in NIDDM patients with secondary failure to sulphonylureas the addition of either low-dose bedtime NPH insulin or t.i.d. metformin is similarly effective in improving glycaemic control. Metformin is better accepted by patients and provides a modest advantage in terms of body weight and cholesterol levels. The most common clinical and metabolic variables are not useful for predicting the efficacy of these two combined treatments.
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PMID:Efficacy of combined treatments in NIDDM patients with secondary failure to sulphonylureas. Is it predictable? 997 73

Treatment of type 1 diabetes mellitus has made tremendous advances within the last decades. With concern to insulin delivery there are two promising new approaches. One is the intrapulmonary insulin delivery which has become feasible by the development of new inhalation devices which provide a sufficient degree of intrapulmonary drug retention. Also oral insulin delivery seems feasible when surface active substances are used to cross the mucosal membrane in the gut. Clinical research has also focussed on coatings for the insulin molecules to solve the problem raised by the proteolytic activity of the digestive system. A very new agent produced by a fungus called Pseudomassaria has been demonstrated to reverse the clinical signs of diabetes mellitus in mice. The compound diffuses through the cell membrane, binds to the inner part of the insulin receptor and activates the insulin typical biological effects. Nowadays a variety of insulin analogs are designed and tested for their clinical use. By shifting the isoelectric point towards to a slightly acidic pH, HOE 901 precipitates at physiologic pH resulting in a constant and peakless insulin delivery. NN 304 is a 14-carbon aliphatic fatty acid acylated analog that binds to serum albumin resulting in a flatter time-action profile than NPH insulin. Also rapid acting insulin analogs are or will be launched in the near future aiming to ensure an improved postprandial glucose regulation. Glucagon-like peptide-1 (GLP-1) improves metabolic control by a variety of effects, e.g. the enhancement of insulin secretion and inhibition of glucagon secretion. Moreover, GLP-1 reduces food and water intake controlled by the brain, and inhibits gastric emptying. A disadvantage of GLP-1 is its very short half-life. Novel derivatives with the beneficial effects of GLP-1 but a better resistance against degradation have been designed. In addition substances have been developed inhibiting GLP-1 degradation or augmenting GLP-1 release from its abundant endogenous pool. Finally, there is a variety of interesting approaches aiming to improve or ease blood glucose self-monitoring. One is the development of subcutaneous catheters for continuous blood glucose control. In another system reverse iontophoresis is used for sampling interstitial fluid which reflects capillary blood glucose levels. Instead of using an electric current, a brandnew system creates micropores in the skin by a laser ablation system. Through these micropores a specific device performs a mild suction to obtain intersitial fluid. Further systems which measure blood glucose by near infrared spectroscopy are still investigated in order to improve their technical function and to reduce their weight. This article intends to give an overview over the new developments in the treatment and management of type-1-diabetes mellitus.
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PMID:New developments in the treatment of type 1 diabetes mellitus. 1052 18


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