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)

The effect of glycaemic control on the early morning plasma glucose rise, 'the dawn phenomenon', was assessed in two matching diabetic patient groups each comprising five NIDDM and two IDDM patients per group, who were otherwise considered to be in poor (HbA1 = 11.2 +/- 0.6%) or good (HbA1 = 7.6 +/- 0.2%) glycaemic control. Hourly plasma concentrations of glucose, insulin, glucagon, cortisol, and growth hormone were measured between 03.00 and 09.00 h. In all the poorly controlled diabetic patients the mean rise in plasma glucose between 06.00-08.00 and 03.00 h was greater than or equal to 1.0 mmol/l. In contrast, the plasma glucose increment was less than 1.0 mmol/l in the well controlled diabetics. The overnight mean insulin levels in the poor and well controlled patient groups were 19.3 +/- 0.5 and 25.0 +/- 0.6 mU/l (P less than 0.001) respectively. Glucagon, cortisol, and growth hormone levels in the early morning showed no significant differences between the two groups. The decline in plasma insulin from 03.00 to 08.00 h and mean cortisol level between 03.00 and 06.00 h were both significantly correlated with the increase in plasma glucose between 03.00 and 08.00 h. We concluded that an increase of 1.0 mmol/l or more in plasma glucose during the early morning is of clinical importance.
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PMID:The dawn phenomenon and diabetes control in treated NIDDM and IDDM patients. 142 38

1. The incretin effect (i.e. the difference between the insulin response after oral and i.v. glucose) is reduced in type 2 diabetes although GIP secretion is normal or exaggerated. This suggests an insensitivity of the diabetic B-cell to GIP. However, it could also indicate the lack of another not yet defined "incretin". 2. While CCK is a potent incretin in rats and dogs, physiological concentrations of this hormone do not stimulate insulin secretion in man in presence of elevated blood levels of glucose or phenylalanine in the physiological range. It also does not interact with GIP. 3. Glucagon-like peptide I (7-36) is a potent glucose-dependent stimulator of insulin secretion in animals and man. Preliminary data suggest release after oral glucose despite localization of the GLPI containing cells predominantly in the ileum and colon. More data are needed before GLPI (7-36) can be regarded as a physiological incretin and its role in type 2 diabetes assessed.
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PMID:Entero-insular axis and diabetes mellitus. 149 Jun 80

Amylin, a peptide found in pancreatic amyloid deposits, may be involved in NIDDM. The effects of biosynthetic human amylin on multiple aspects of carbohydrate metabolism were studied in freshly isolated and cultured liver cells (rat hepatocytes and HepG2 cells). Acute exposure of culture liver cells to amylin had no effect on glucose incorporation into glycogen. Amylin directly reduced glucose oxidation through the hexose monophosphate shunt. The glycolytic pathway was unaffected. Amylin stimulated both glycogenolysis and gluconeogenesis. These effects were largest at amylin concentrations of 1-10 pM. Insulin partially inhibited both of these responses. Glucagon stimulated glycogenolysis and gluconeogenesis to a similar extent as amylin but required concentrations 100- to 500-fold as high. Thus, amylin, at physiologic concentrations, can impair some aspects of glucose use in liver cells and is also capable of directly stimulating glucose production, suggesting a possible involvement of amylin in the impaired glucose disposal and elevated hepatic glucose output of NIDDM.
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PMID:In vitro effects of amylin on carbohydrate metabolism in liver cells. 162 73

To define the spontaneous diurnal variations in glucose regulation during fasting in noninsulin-dependent diabetes (NIDDM), we measured circulating levels of glucose, insulin, C-peptide, GH, cortisol, and glucagon at 15-min intervals in 11 patients with untreated diabetes and 7 matched control subjects studied during a 24-h period. The rates of insulin secretion were derived from the concentrations of C-peptide by deconvolution using a two-compartment mathematical model for C-peptide distribution and metabolism. In both groups of subjects, despite continued fasting, glucose levels stopped declining in the evening and subsequently rose throughout the night to reach a morning maximum. Elevated levels persisted until noon. The morning glucose maximum corresponded to a relative increase of 23.8 +/- 5.5% above the evening nadir in NIDDM patients and 13.2 +/- 4.6% in nondiabetic subjects (P less than 0.05). In NIDDM patients, insulin levels and insulin secretion rates did not parallel the nocturnal glucose changes. In contrast, in control subjects, this nocturnal glucose rise coincided with a similar increase in insulin secretion rates. Cortisol concentrations in patients with NIDDM were higher than those in control subjects throughout the study period (P less than 0.001) and rose earlier in the evening than in control subjects, thus failing to demonstrate the normal nocturnal suppression. In both groups of subjects, the nighttime glucose elevation was temporally and quantitatively correlated with the circadian cortisol rise. GH secretion was increased in the evening and nighttime periods compared to the daytime values, and in NIDDM patients, but not in control subjects, the size of the morning glucose elevation was directly related to the magnitude of this increase in GH secretion (r = 0.88; P less than 0.01). Glucagon concentrations were similar in both groups of subjects and remained essentially constant throughout the study period. We hypothesize that the nocturnal glucose rise that occurs during fasting represents a normal diurnal variation in the set-point of glucose regulation amplified by counterregulatory mechanisms activated by the fasting condition.
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PMID:Nocturnal elevation of glucose levels during fasting in noninsulin-dependent diabetes. 199 13

Glucagon may play a role in the metabolic derangements of overt Type 2 (non-insulin-dependent) diabetes mellitus. We therefore have evaluated the early steps in glucagon action by investigating the hormone-sensitive adenylyl cyclase system in liver membranes from seven Type 2 diabetic patients with fasting hyperglycaemia and two-fold elevations in plasma glucagon. The comparison was made with seven control subjects matched for age, sex and body weight. Glucagon receptor binding was almost identical in the two groups. There were, however, marked alterations in the adenylyl cyclase activity in membranes from the diabetic patients. This activity was reduced by 35-50% when compared to control activity. Basal cyclase activity, as well as the activity after stimulation with glucagon or with agents (i.e., sodium fluoride and forskolin) that act beyond the glucagon receptor, was significantly decreased (p less than 0.05, p less than 0.001 respectively). In conclusion, uncontrolled Type 2 diabetes in associated with an over-all loss of responsiveness of the hormone-sensitive adenylyl cyclase in human liver, which apparently results from post-receptor alterations. This change may provide a mechanism for reducing the effect of hyperglycagonaemia in Type 2 diabetes mellitus.
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PMID:Altered action of glucagon on human liver in type 2 (non-insulin-dependent) diabetes mellitus. 303 42

In order to better understand the role of A- and B-cell function in diabetic pregnancy, we studied four groups of pregnant women at week 34-36 of gestation. Seventeen were healthy controls (C), 24 had gestational diabetes (GD), 16 had type 2 diabetes (NIDD) and 37 had type 1 diabetes (IDD). At times -20, 0, 20, 30, 45, 60, 90 and 120 min from the beginning of a 30 min infusion of 30 g of arginine intravenously, plasma glucose, glucagon (IRG) and C-peptide (CPR) were measured. Plasma glucose was higher in diabetic than in control subjects. IRG values were also higher in the GD and the NIDD women. CPR values were similar to, or slightly higher than control values in the GD and the NIDD and were much lower in the IDD women. All three variables increased during the arginine infusion in all groups, with the exception that CPR remained unchanged in the IDD. The CPR/IRG molar ratio was similar in control, GD and NIDD women; in the IDD, it was much smaller than in the other groups and was not affected by arginine. In all the diabetic patients, IRG was negatively correlated with the maternal weight gain and in the IDD IRG was positively correlated with the increase in the insulin need and with the CPR levels. In conclusion diabetes appeared to enhance the A-cell function also in pregnancy, possibly impairing the 'facilitated anabolism' and stressing the 'accelerated starvation' which are typical of normal pregnancy. Glucagon was confirmed as one possible determinant of the insulin resistance seen in diabetic pregnancy.
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PMID:Endocrine pancreatic function in insulin-dependent diabetic pregnant women. 353 67

Glucagon-like peptide-I(GLP-I), encoded by the glucagon gene and released from the gut in response to nutrients, is a potent stimulator of glucose-induced insulin secretion. In human subjects GLP-I exerts its physiological effect as an incretin. The incretin effect of GLP-I is preserved in patients with Type II diabetes mellitus (NIDDM), suggesting that GLP-I receptor agonist can be used therapeutically in this group of patients. In these studies we addressed the question of whether GLP-I has broader actions in human physiology. To investigate this issue we examined the tissue distribution of GLP-I receptor using RNAse protection assay in order to avoid the cross-reactivities with structurally related receptors and to increase the sensitivity of detection. The riboprobe was synthesized from the human pancreatic GLP-I receptor cDNA and used in hybridization experiments with total RNA isolated from different human tissues. In addition to the pancreas, we found expression of GLP-I receptor mRNA in lung, brain, kidney, stomach and heart. Peripheral tissues which are the major sites of glucose turnover, such as liver, skeletal muscle and adipose did not express the pancreatic form of the GLP-I receptor. We also cloned and sequenced GLP-I receptor cDNA from human brain and heart. The deduced amino acid sequences are the same as the sequence found in the pancreas. These results indicate that GLP-I might have effects beyond the pancreas, including the cardiovascular and central nervous systems where a receptor with the same ligand binding specificity is found.
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PMID:Tissue-specific expression of the human receptor for glucagon-like peptide-I: brain, heart and pancreatic forms have the same deduced amino acid sequences. 784 4

Glucagon-like peptide-1 (GLP-1) is a hormone derived from the preproglucagon molecule that is secreted by intestinal L cells and stimulates insulin secretion from beta cells. The GLP-1 receptor is a candidate gene for diabetes mellitus, as mutations may induce the impaired insulin response that is a characteristic feature of NIDDM. To study the relationship between the GLP-1 receptor gene and NIDDM, linkage of a microsatellite polymorphism flanking the GLP-1 receptor gene with diabetes was investigated in three Caucasian families with MODY and in the nuclear families of 12 NIDDM probands. A cumulative LOD score -8.50 excludes linkage in these MODY pedigrees. A LOD score of -1.24 in the NIDDM nuclear pedigrees makes linkage improbable. Mutations in or near the GLP-1 receptor gene are unlikely to be the major cause of the inherited predisposition to NIDDM in Caucasian pedigrees, but we cannot exclude a role for this locus in a polygenic model or a major role in some pedigrees.
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PMID:Non-linkage of the glucagon-like peptide 1 receptor gene with maturity onset diabetes of the young. 795 45

Glucagon-like peptide-1 (GLP-1) stimulate glucose dependent insulin secretion from beta-cells. Human cDNA and the gene of the receptor for the GLP-1 was isolated. Two polymorphic simple tandem repeats were found in the gene. Using these markers, role of GLP-1 receptor mutations in the pathogenesis of NIDDM was studied. No association was found between the marker alleles and NIDDM in African American or in Japanese. Linkage was rejected between the GLP-1 receptor gene and NIDDM in Caucasian late-onset NIDDM families and in French MODY families. Mutations in the GLP-1 receptor gene do not appear to be major genetic determinants of NIDDM. Further studies are required to exclude the minor role of the gene in a fraction of NIDDM patients.
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PMID:[Human glucagon-like peptide-1 receptor gene in NIDDM]. 798 6

Non-insulin-dependent diabetes mellitus (NIDDM, type 2 diabetes) is a disorder of glucose homeostasis characterized by hyperglycaemia, peripheral insulin resistance, impaired hepatic glucose metabolism, and diminished glucose-dependent secretion of insulin from pancreatic beta-cells. Glucagon-like-peptide-1(7-37) (GLP-1) is an intestinally derived hormone that may be useful for the treatment of NIDDM because it acts in vivo to increase the level of circulating insulin, and thus lower the concentration of blood glucose. This therapeutic effect may result from the ability of GLP-1 to compensate for a defect in the glucose signalling pathway that regulates insulin secretion from beta-cells. In support of this concept we report here that GLP-1 confers glucose sensitivity to glucose-resistant beta-cells, a phenomenon we term glucose competence. Induction of glucose competence by GLP-1 results from its synergistic interaction with glucose to inhibit metabolically regulated potassium channels that are also targeted for inhibition by sulphonylurea drugs commonly used in the treatment of NIDDM. Glucose competence allows membrane depolarization, the generation of action potentials, and Ca2+ influx, events that are known to trigger insulin secretion.
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PMID:Pancreatic beta-cells are rendered glucose-competent by the insulinotropic hormone glucagon-like peptide-1(7-37). 838 Dec 11

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