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)

In IDDM, T-cells are postulated to mediate the destruction of pancreatic beta-cells. We analyzed peripheral blood mononuclear cell (PBMC) responses to human insulin, glutamate decarboxylase GAD65, tyrosine phosphatase ICA512, glucagon, membrane preparations of RIN cells and human pancreas, and three control antigens (La = nuclear cell antigen, tetanus toxoid, and phytohemagglutinin). A total of 28 patients with newly diagnosed IDDM, 9 antibody-positive (Ab+) first-degree relatives, and 16 healthy control subjects were included. Increased proliferative responses to pancreatic islet cell antigens were observed in diabetic patients and in Ab+ relatives compared with control subjects, whereas T-cell reactivity to nonpancreatic control antigens was similar between the study groups. The highest differences in the magnitude of proliferative responses were seen for ICA512, followed by membrane preparations of RIN cells, GAD65, and human pancreas. Few subjects reacted with insulin or glucagon. Interestingly, Ab+ relatives showed higher T-cell reactivity with respect to stimulation indexes and prevalences than newly diagnosed diabetic patients, and as many as 89% of Ab+ relatives showed proliferation to more than one islet cell antigen preparation in comparison to 43% of newly diagnosed diabetic patients and none of the control subjects. Statistical analysis revealed significant positive correlation of insulin autoantibody levels with the levels of insulin-specific T-cells in Ab+ relatives, but no relation of PBMC responses to age, sex, or HLA-DR haplotypes. Our results demonstrate the simultaneous existence of various autoreactive T-cells specific for islet cell antigens in the prediabetic period. These T-cells may play a significant role in the pathogenesis of the disease.
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PMID:Cellular immune response to diverse islet cell antigens in IDDM. 863 55

Individuals with insulin-dependent diabetes mellitus (IDDM or type 1 diabetes) are deficient in both insulin and amylin, peptides secreted by the beta cell. We have investigated the effects of amylin replacement therapy employing the human amylin analogue, pramlintide (25, 28, 29-pro-human amylin, previously referred to as AC137), upon the responses to a standardized insulin infusion (40 mU. kg-1. h-1) for 100 min and a liquid Sustacal meal (360 kcal) in 84 healthy IDDM patients. Following baseline evaluations, patients were randomly assigned to receive subcutaneous injections of placebo, 30, 100 or 300 micrograms pramlintide 30 min before meals for 14 days. There was no meaningful difference between adverse events reported by the 30-micrograms pramlintide and the placebo groups, but ten subjects withdrew due to nausea, eight of these in the 300-micrograms dose group. Peak plasma pramlintide concentrations for the 30-micrograms group were 21 +/- 3 and 29 +/- 5 pmol/l on Days 1 and 14, respectively. These values are similar to postprandial plasma amylin concentrations in normal volunteers. The plasma glucose, free insulin, glucagon, epinephrine and norepinephrine concentrations during the insulin infusion test before and after therapy were identical in each of the group. Prior to pramlintide therapy, Sustacal ingestion produced a 4.0-4.8 mmol/l rise in plasma glucose concentrations in each of the groups. Pramlintide therapy reduced postprandial hyperglycaemia as reflected by the 3-h incremental AUCglucose (AUCglucose above or below fasting glucose concentration) Day 1 vs Day 14: 30 micrograms, 322 +/- 92 vs -38 +/- 161 mmol/l.min, p = 0.010; 100 micrograms, 317 +/- 92 vs -39 +/- 76 mmol/l.min, p = 0.001; and 300 micrograms, 268 +/- 96 vs -245 +/- 189 mmol/l.min, p = 0.077. Thus, pramlintide therapy with these regimens did not appear to impair either in vivo insulin action or the counter-regulatory response to hypoglycaemia but did show a clear effect of blunting postprandial hyperglycaemia following a standardized meal.
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PMID:Effect of 14 days' subcutaneous administration of the human amylin analogue, pramlintide (AC137), on an intravenous insulin challenge and response to a standard liquid meal in patients with IDDM. 877 1

So far, a wealth of data originating from in vitro or animal experiments has been collected supporting the concept that the gut hormone, glucagon-like peptide-1 (GLP-1) may serve as a model molecule for the design of a new drug for the treatment of diabetes mellitus. This is supported by observations that GLP-1 has potent insulinotropic action in patients with non-insulin-dependent diabetes mellitus (NIDDM). It enhances beta-cell sensitivity to glucose stimulated insulin secretion. GLP-1 may also have a role in the treatment of impaired glucose tolerance, where the beta-cell is already insensitive to changes in plasma glucose concentrations. It may, as has previously been shown in animal models of 'prediabetes', delay the progressive decline in glucose tolerance to NIDDM. The glucose-dependent action of this peptide is an important feature in the treatment of NIDDM as it will protect against hypoglycaemic reactions, the most serious acute side-effect of antidiabetic therapy. Glucose utilization may be enhanced which would improve metabolic control in both NIDDM and IDDM. A glucagon lowering effect will further enhance metabolic control. This article reviews current experiences of the effects of GLP-1 in human studies. It points out the outcomes and limitations of previous trials and discusses future directions for the investigation of its potential use as a new agent in diabetes treatment.
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PMID:Human studies with glucagon-like-peptide-1: potential of the gut hormone for clinical use. 891 78

We evaluated the frequency of antibodies to glutamic acid decarboxylase (GAD-Ab) in Japanese patients diagnosed initially as having non-insulin-dependent diabetes mellitus (NIDDM) and investigated a possible link between the presence of GAD-Ab and development of the insulin-dependent (ID) state. The population sample consisted of 583 Japanese NIDDM patients (age at onset > 30 years) who were initially non-ketotic and did not require insulin treatment during at least 6 months of observation. GAD-Ab were measured using radioimmunoassay. The clinical characteristics of GAD-Ab+ patients were carefully examined at four-year intervals from the onset of diabetes. We also examined the ID state by measuring the level of postprandial serum C-peptide and i.v. glucagon-stimulated serum C-peptide. The overall prevalence of GAD-Ab in Japanese NIDDM patients was 3.8%. The frequency of GAD-Ab+ did not significantly decrease with a long history of diabetes. GAD-Ab+ patients had a lower body mass index, compared with GAD-Ab- (20.8 +/- 2.9 vs 23.0 +/- 3.7, P < 0.005), lower postprandial C-peptide levels (0.7 +/- 0.6 vs 1.4 +/- 1.2, P < 0.01), and an early commencement of insulin therapy (3.6 +/- 4.7 vs 8.3 +/- 6.6, P < 0.01). GAD-Ab+ patients who had already developed the ID state had characteristically higher titers of GAD-Ab (421.4 +/- 359.1) and a higher frequency of islet cell antibodies (ICAs) (77.8%), compared with GAD-Ab+ NID patients (titer: 60.2 +/- 86.9, P < 0.005, 23.1%, P < 0.05, respectively). GAD-Ab+ ICAs+ patients showed higher frequencies of ID state at any diabetic duration compared with GAD- ICAs-, while GAD-Ab+ ICAs- patients did not differ in the frequency of the ID state from GAD- ICAs-. Our results suggest that the presence of both GAD-Ab and ICAs represents a high risk for IDDM in GAD-Ab+ NIDDM patients.
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PMID:Clinical evaluation of non-insulin-dependent diabetes mellitus patients with autoantibodies to glutamic acid decarboxylase. 893 85

Insulin Lispro is a newly FDA approved analog of human insulin that exhibits rapid absorption and a short duration of action after sc injection. Although Lispro insulin improves immediate postprandial glycemia compared to Regular insulin, long term trials of Lispro insulin have not shown improvement in overall glycemic control, as determined by glycosylated hemoglobin. We hypothesize that this lack of improvement is attributable to the development of late postprandial hyperglycemia secondary to a waning of Lispro insulin's effect in conjunction with continued meal absorption. This study was designed to evaluate the duration of Lispro-induced reductions in plasma glucose after a standardized meal when Lispro insulin is incorporated into a regimen typically employed in insulin-dependent diabetes mellitus. After establishment of euglycemia overnight, 12 healthy IDDM patients received human Ultralente insulin (0.2 U/kg) alone and in combination with each of the following treatments in random sequence immediately before ingesting a 750-Cal American Diabetes Association breakfast: 1) 0.15 U/kg human Regular insulin (Regular 0.15 group), 2) 0.15 U/kg Lispro insulin (Lispro 0.15 group), 3) 0.1 U/kg Lispro insulin (Lispro 0.1 group), and 4) an equimolar (1:1) mixture of Lispro and Regular insulins (0.15 U/kg; 1:1 Mix group). Glucose and hormonal parameters were assessed for 8 h after the meal. Peak postprandial glucose was increased in the Regular insulin group compared to that in all groups that incorporated Lispro insulin (P < 0.001). Glucose area under the curve (AUC) was decreased in the Lispro 0.15 group compared to that in the Lispro 0.1 group, and glucose AUC was decreased in the Lispro 0.15 and 1:1 Mix groups compared to that in the group given Regular insulin (P < 0.001). Mean plasma glucose concentrations during the final hour of study were increased in the Ultralente group compared with those in all other treatment groups and were increased in the Lispro 0.1 group compared with those in the Regular, Lispro 0.15, and 1:1 Mix groups (P < 0.05). Insulin AUC was significantly reduced in the Lispro 0.1 group compared to those in all other short acting insulin groups (P < 0.001), and time to peak insulin was more rapid in the two Lispro groups than those in all other treatment groups (P < 0.01). The glucagon response was significantly greater in the Ultralente group compared to those with all other treatments. There was no difference in the development of hypoglycemia between the groups. This study demonstrates that the reductions in plasma glucose effected by Lispro insulin are consistent and stable for 8 h after meal ingestion when Lispro insulin is used in combination with human Ultralente insulin. These findings suggest that improvement in overall glycemia, as assessed by glycosylated hemoglobin, may be achievable with Lispro insulin if adequate doses are administered.
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PMID:Prolonged efficacy of short acting insulin Lispro in combination with human ultralente in insulin-dependent diabetes mellitus. 906 7

The incidence of insulin-dependent diabetes (IDDM) in Chinese is much lower than for Western persons. The study was designed to determine whether Chinese children with transient hyperglycemia would develop diabetes as frequently as Western children. Ten children presenting with transient hyperglycemia were investigated using glucagon stimulation test, oral glucose tolerance test (OGTT) and i.v. glucose tolerance test (IVGTT) to estimate pancreatic insulin secretory function. They were followed up for one to three years. Islet cell antibodies and insulin autoantibodies were also measured. During the follow-up period, 2 of the 10 children developed diabetes at 1 month and 1 year, respectively, after the occurrence of transient hyperglycemia. Both of them had lower C-peptide peak level to glucagon stimulation, decreased first phase insulin release to IVGTT and a diabetic sibling. Islet cell antibodies and insulin autoantibodies were all negative except in one of the two children who later developed diabetes. Although it is still premature owing to the small sample size to conclude that Chinese children with transient hyperglycemia are less likely to develop diabetes than Western children, it is advisable to closely follow up those with a family history of IDDM who seem to be at the greatest risk.
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PMID:Clinical implication of transient hyperglycemia in childhood. 907 82

Currently there is debate regarding the capacity of pancreatic islets to regenerate in adult animals. Because pancreatic endocrine cells are thought to arise from duct cells, we examined the pancreatic ductal epithelium of the diabetic NOD mouse for evidence of islet neogenesis. We have evidence of duct proliferation as well as ductal cell differentiation, as suggested by bromodeoxyuridine-labeling and the presence of glucagon-containing cells within these ducts. In addition, the ductal epithelia in diabetic NOD mice expressed the neuroendocrine markers neuropeptide Y and tyrosine hydroxylase. These ducts also expressed the homeobox gene product, insulin promoter factor 1. Ductal cell proliferation and expression of these markers was not observed in transgenic NOD mice (NOD-E), which do not develop clinical or histopathological symptoms of IDDM. This suggests that the observed ductal cell proliferation and differentiation was a direct result of beta-cell destruction and insulin insufficiency in these adult diabetic mice, which further suggests that these events are recapitulating islet ontogeny observed during embryogenesis. It is possible that comparable processes occur in the human diabetic pancreas.
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PMID:alpha-Cell neogenesis in an animal model of IDDM. 907 99

The aim of our study was to investigate the relative prevalence of the different forms of diabetes in young adults and their respective clinical characteristics. Included were 51 nonobese patients (BMI < 27 kg/m2) with diabetes diagnosed before age 40, excluding typical IDDM. Each patient was subjected to screening for glucokinase gene (MODY2) and mitochondrial DNA (at nucleotide 3243) mutations, to HLA class II genotyping, and screening for the presence of islet cell antibodies (ICAs) and anti-GAD antibodies. Informative families were analyzed for linkage of diabetes to chromosome 12q (MODY3). Based on clinical criteria, patients were subdivided into MODY (n = 19) and non-MODY (n = 32). In the MODY group, we identified three patients with MODY2, one with the 3243 mitochondrial mutation, and another with autoimmune diabetes. One of the five MODY families available for linkage study was shown to have MODY3. In the non-MODY group, we found five patients with autoimmune diabetes and one with MODY2. No clinical parameter was helpful to classify patients in one of these subclasses of diabetes; however, the glucagon-stimulated C-peptide was useful to discriminate between MODY2 patients and the others. In conclusion, young and lean non-insulin-dependent diabetic patients constitute a very heterogeneous group, although they present similar clinical characteristics. The clinical distinction of MODY and non-MODY patients allows correct classification in, at most, 75% of the patients and thus is not sufficient to predict clinical course. However, immunological and genetic parameters allowed us to classify only 25% of the patients in specific diagnostic classes.
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PMID:Diagnostic heterogeneity of diabetes in lean young adults: classification based on immunological and genetic parameters. 907 2

Hypoglycemia elicits a characteristic sequence of responses in healthy humans. These responses (and their arterialized venous glycemic thresholds) include: 1) Decreased insulin secretion (approximately 4.5 mmol/L). 2) Increased glucose counterregulatory hormone (glucagon, epinephrine, growth hormone and cortisol) secretion (approximately 3.6-3.8 mmol/L). 3) Symptoms of hypoglycemia (approximately 3.0 mmol/L). 4) Cognitive dysfunction (approximately 2.6 mmol/L). Thus, insulin secretion decreases as plasma glucose levels fall within the physiological range, and counterregulatory hormone secretion increases as plasma glucose levels fall just below the physiological range at substantially higher glucose levels than those required to produce symptoms and impair cognitive function. These data are entirely consistent with the body of evidence that insulin, glucagon and epinephrine stand high in the hierarchy of redundant glucoregulatory factors that prevent, as well as correct, hypoglycemia. When the same methods are used, these thresholds are remarkably reproducible from laboratory to laboratory. Nonetheless, the glycemic thresholds are dynamic rather than static. They vary in relation to recent antecedent glycemia. For example, lower plasma glucose concentrations are required to elicit autonomic, including epinephrine, and symptomatic responses in patients with well controlled IDDM, a phenomenon best attributed to recent antecedent iatrogenic hypoglycemia. This is the basis of the clinical syndrome of hypoglycemia unawareness, which is now known to be reversible with scrupulous avoidance of iatrogenic hypoglycemia. The latter also at least partially reverses reduced epinephrine responses to hypoglycemia, a key component (in the setting of absent glucagon responses) of the syndrome of defective glucose counterregulation. While perhaps seemingly adaptive, these threshold shifts appear to be maladaptive since both defective glucose counterregulation and hypoglycemia unawareness are associated with substantially increased rates of severe iatrogenic hypoglycemia in people with IDDM.
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PMID:Hierarchy of physiological responses to hypoglycemia: relevance to clinical hypoglycemia in type I (insulin dependent) diabetes mellitus. 913 76

Recent studies indicate that C-peptide, when given to patients with insulin-dependent (Type 1) diabetes mellitus (IDDM), exerts significant effects on microvascular and neuronal functions. Adjuvant therapy with C-peptide has been advocated in the treatment of IDDM patients. Since endogenous insulin secretion is believed to be of importance for the alpha-cell function, we addressed the issue whether C-peptide given acutely interferes with the responses to hypoglycaemia. Seven IDDM patients were randomly exposed to hypoglycaemia with and without exogenous C-peptide. Insulin and and C-peptide were given intravenously in equimolar amounts for 3 hours. The decrease of blood glucose was faster and more pronounced during C-peptide infusion, yielding a significantly lower AUC 0-180 min of blood glucose (38.5 +/- 1.6 vs 44.4 +/- 2.2 mmol l(-1)h(-1); p = 0.032). No difference between the two experiments was found concerning glucagon when the AUC, delta-values or levels at separate points of time were calculated. In conclusion, the main finding of this study was that exogenous C-peptide, given acutely, gave rise to a more rapid onset of hypoglycaemia yielding no detectable differences with respect to the response of glucagon and other counterregulatory hormones.
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PMID:Effects of C-peptide on insulin-induced hypoglycaemia and its counterregulatory responses in IDDM patients. 927 91


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