UMLS:C0011849 - FACTA Search

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Query: UMLS:C0011849 (diabetes)
277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The role of cyclic adenosine-3',5'-monophosphate (cAMP) for insulin secretion has been investigated. In isolated islets of Langerhans from the rat, glucose increases cAMP concomitant with insulin secretion. Stimulation of these two parameters is likewise reversible in parallel. The minimal and maximal concentrations of glucose eliciting cAMP and insulin responses are similar. Isomers and epimers of glucose influence insulin and cAMP in a parallel fashion as do sulfonylurea compounds (tolbutamide and glibenclamide). On the contrary, the time-dependent potentiation of glucose-induced insulin secretion is not accompanied by gross changes in cAMP. Reciprocally, in the absence of glucose islet cAMP can be markedly elevated by other agents (methyl xanthines, cholera toxin) without major insulin responses. The results indicate that metabolism of cAMP in the beta-cell is intimately linked to the glucose (and sulfonylurea) action on insulin secretion, although other factors influenced by the hexose are also necessary for the release process. The finding that the cAMP response is impaired in fasting, during the neonatal period and in diabetes mellitus (in the Chinese hamster) suggests an important role for the nucleotide in physiological and pathophysiological states characterized by decreased insulin release.
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PMID:Cyclic AMP and insulin release. 21 Jun 17

With the advent of radioimmunoassay and immunocytochemical methods, the peptides of the gastrointestinal tract have been identified and measured. Gastrinoma and insulinoma syndromes have been wall characterized. The pancreatic cholera syndrome and some of the evidence that the major manifestations of this disease may be mediated by vasoactive intestinal peptide have been re-examined. Pancreatic polypeptide seems to be an ideal peptide for study of vagal-cholinergic mechanisms that regulate hormone release; it also appears to be a tumor marker for several types of pancreatic endocrine tumors, particularly those of pancreatic cholera. Secretin and cholecystokinin are important regulators of pancreatic exocrine secretion and have been used to test pancreatic function, but there is little evidence that they account for clinical disease. Glucagon-secreting tumors produce a clinical syndrome of diabetes mellitus and distinctive skin lesions, which can be cured by tumor resection. Hormone-secreting tumors may provide insight into normal gut physiology.
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PMID:Gastrointestinal hormones in clinical disease: recent developments. 21 42

The specific activity of Na(+)-K(+)-ATPase in the renal medulla and cortex of 50-day-old streptozotocin (STZ)-induced diabetic mice was increased 58% and 50%, respectively, as compared to controls. Km values of Na+ and K+ for this enzyme were unaltered, while that of ATP was decreased in diabetic mice. The Na(+)-K(+)-ATPase in control medulla and cortex was activated by both cholera and pertussis toxins, while this effect was abolished in diabetics. Since dibutyryl cAMP stimulates cortical Na(+)-K(+)-ATPase activity in control mice, the activation effect of cholera toxin on this enzyme might be due to its interaction with a Gs-protein and the persistent stimulation of adenylate cyclase activity, while the effect of pertussis toxin might be due to its masking of the inhibitory action of a Gi-protein on adenylate cyclase activity. However, the protein kinase C (PKC)-associated Na(+)-K(+)-ATPase might also be quiescent in diabetes, because the stimulating effect of phorbol 12,13-dibutyrate (PDBu) and phorbol 12-myristate 13-acetate (PMA) on this enzyme was abolished in diabetic cortex. In addition, nicardipine and ouabain were found to have differential effects on this enzyme derived from control and diabetic mice.
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PMID:Differentiation of renal Na(+)-K(+)-ATPase in control and streptozotocin-induced diabetic mice by G-protein acting toxins and phorbol esters. 132 74

All of the components of the neuropeptide vasoactive intestinal peptide (VIP) signal transduction system were underexpressed in rat prostatic membranes 6 weeks after streptozotocin-induced diabetes. Binding studies with [125I]VIP showed decreases of 86% and 62% in the binding capacity of the high and low affinity classes of VIP receptors in diabetes. Affinity labeling experiments indicated that the main form of VIP receptor was 51 kilodaltons in control rats and 45 kilodaltons in diabetic animals. The efficacy of VIP and forskolin in stimulation of adenylyl cyclase activity as well as the potentiating effect of GTP on VIP action were also reduced in diabetes, as was the expression of the alpha-subunit of the guanine nucleotide-binding regulatory proteins Gs and Gi (studied by ADP ribosylation with cholera and pertussis toxins). Gi function was lost in diabetes, as assessed with experiments on guanyl-5'-yl-imidodiphosphate potentiation of forskolin activity. These disturbances together with previous findings argue for VIP playing a role in the diabetic neuropathy of the genitourinary tract.
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PMID:The effect of streptozotocin diabetes on the vasoactive intestinal peptide receptor/effector system in membranes from rat ventral prostate. 132 26

We adapted the electrophoretic method of bone alkaline phosphatase (ALP) determination using neuraminidase from Vibrio cholerae to separate bone and liver ALP on cellulose acetate membrane. Treatment of separator plus serum (1:8, neuraminidase 111 U/l in final) for 10 min at room temperature (25 +/- 1 degree C) and subsequent electrophoresis made it possible to quantify bone ALP activity simply and rapidly. The precision of the data was at the level of CV of 1.6% (within-day) and 4.7% (day-to-day), with recovery rates of 97-103%. The normal range of bone ALP activity depended on age and sex. Seventy-eight diabetes mellitus (DM) patients, excluding those with renal failure, were divided into two groups of those with and without osteopenia with matching of age (+/- 3 years) and sex. Bone ALP (P < 0.001) and total ALP (P < 0.05) activities and urine calcium/creatinine ratio (P < 0.05) were significantly higher in DM with osteopenia than in DM without osteopenia. Therefore, bone formation and absorption may be accelerated in DM with osteopenia in comparison with DM without osteopenia.
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PMID:Cellulose acetate electrophoretic determination of bone alkaline phosphatase activity in healthy subjects and diabetic patients with and without osteopenia. 142 53

Specific binding of ADH by the membrane fraction of the kidney medulla was lower in the normal CBA mice than in mutant mice with nephrogenic diabetes. Gel filtration of the solubilized ADH receptors of mutants revealed the presence of an unidentified factor which caused cooperative binding of ADH. DEAE-chromatography revealed no difference between cytosolic cAMP receptors in normal and mutant animals. Assay of GTP-ase activity of the membrane fraction revealed that ADH increased this parameter in CBA mice but not in mutant animals. Cholera toxin significantly diminished membrane ATP-ase activity whereas membrane preparations from mutant mice developed a reactivity to ADH. GTP binding ability in these preparations was higher than inn intact ones. In CBA mice this ability increased dramatically. HPLC profiles of G-protein complexes with GNP were very different in CBA and mutant mice. Mutation seems to cause changes both in binding and in "cross-talk" link op-complex membrane receptor of ADH.
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PMID:[ADH and cAMP receptor binding in the kidney medulla of mice insensitive to ADH]. 166 85

The effect of cholera toxin (CT) on the thyroid-pituitary axis and the immune system was examined in Bio-Breeding/Tokyo (BB/TKY) rats, which spontaneously develop insulin-dependent diabetes mellitus (DM) and lymphocytic thyroiditis (LT). Intravenous administration of CT (5 micrograms/100 g body weight) every other week starting at 6 weeks of age resulted in a significant decrease in the serum thyrotropin (TSH) level at 12 and 14 weeks of age when compared with saline treated littermates. CT stimulated rat thyroid cells to proliferate in vitro. Furthermore, serum anti-thyroglobulin antibody (ATA) titers were also significantly decreased in 14-week-old rats treated with CT. In vitro ATA production by spleen cells from BB/TKY rats was inhibited by CT. Antibodies to thyroxine were detected in both CT-treated and control rats. It is of interest that the ratio of W3/25+ helper/inducer cells to OX8+ suppressor/cytotoxic cells was significantly decreased in CT-treated rats. However, there was no significant difference in the incidence of DM and LT between the two groups of rats. The present study showed that CT suppressed ATA production both in vivo and in vitro, and had a stimulatory effect on thyrocytes in BB/TKY rats.
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PMID:Effect of cholera toxin on serum levels of thyrotropin and thyroid autoantibodies in biobreeding/Tokyo (BB/TKY) rats. 166 59

In diabetic rats, intestinal mucin secretion is unusually high compared with that in normal rats. These studies demonstrate that mucin synthesis is also increased in the diabetic intestine. alpha- and beta-adrenergic agonists or antagonists did not affect mucin output in either normal or diabetic animals, suggesting that altered release in diabetes was not due to goblet cells responding abnormally to adrenergic agents. The cholinergic agonist bethanechol caused a dose-dependent and atropine-sensitive increase in mucin secretion from the normal intestine but had no effect on mucin release from diabetic tissue. Atropine alone did not reduce mucin secretion from the diabetic intestine to levels found in normal tissue. Cholera toxin caused an approximately fivefold increase in mucin output from normal rats but had no effect on mucin secretion from diabetic animals. Thus, goblet cell responses to cholinergic stimulation and cholera toxin in the diabetic intestine are markedly impaired. However, loss of cholinergic control does not appear to be responsible for altered baseline mucin secretion in diabetes.
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PMID:Intestinal mucin secretion in streptozotocin-diabetic rats: lack of response to cholinergic stimulation and cholera toxin. 168 17

We assessed the heterogeneity in the islet cell cytoplasmic antibody (ICA) response of insulin-dependent diabetes mellitus (IDDM) patients via indirect immunofluorescence on frozen sections of human, bovine, and porcine pancreas. The three substrates detected comparable frequencies of ICA positives among the IDDM sera tested, whereas control sera were ICA negative on all three substrates. However, individual IDDM serum samples showed heterogeneity in ICA binding on the three pancreata. Of 28 sera tested on all three substrates, 22 were ICA positive on human pancreas, three were ICA positive on bovine pancreas, and two were ICA positive on porcine pancreas. Sensitivity of ICA epitopes to neuraminidase treatment and periodate oxidation suggests that glycoconjugates are recognized by serum ICA. Cholera toxin blocked ICA binding. However, the functional cholera toxin receptor ganglioside Gm1 is resistant to neuraminidase treatment and periodate oxidation. Therefore, it is unlikely that Gm1 is the ICA determinant. These data suggest that not all ICA antigens are equivalently expressed on islets from different pancreata and/or that each individual responds to a hierarchy of islet antigens such that restricted patterns of specific ICA binding are found.
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PMID:Heterogeneity in the specificity of the islet cell cytoplasmic antibody response in insulin-dependent diabetes mellitus. 170 23

Glycogen content in the normal placenta decreases gradually towards term. However, in human diabetes and in rat streptozotocin diabetes two- to tenfold increases in placental glycogen level were found during the pregnancy. This elevation was evident in rats per tissue weight, protein or DNA content and was also seen in insulin-treated and gestational diabetics. Electron microscopic investigation of diabetic rat placenta revealed glycogen deposition in the typical glycogen cells, also in junctional zone cells and in all cells of the placental labyrinth. Placental glycogen accumulation in diabetes occurs in marked contrast to other tissues, such as maternal liver, from which glycogen disappears. Liver and muscle glycogenesis and glycogenolysis are under insulin control, by regulation of the activities of glycogen synthase and phosphorylase. However, in the placenta these enzymes are not meaningfully influenced by insulin in in vivo and in vitro studies. In our and other laboratories the activities of both enzymes somewhat increased or decreased, showing no trend conducive to glycogen accumulation. Placenta is glucose dependent, but the role of insulin in its carbohydrate metabolism is doubtful. Despite the high placental concentration of insulin receptors no metabolic outcome has yet been pointed out. Glycogen accumulation in the placenta of diabetic rats was found to be related to the extent of maternal hyperglycemia. The resultant markedly increased intracellular level of glucose-6-phosphate accelerates glycogen synthesis b. Glucose itself activates glycogen synthase and deactivates glycogen phosphorylase. Continuous glucose infusion to non-diabetic pregnant rats on gestation days 18-21 likewise also caused an increase in placental glycogen in correlation with hyperglycemia. The possibility that placental glycogen is under the control of fetal rather than maternal insulin was explored by producing insulin deficiency through intrafetal streptozotocin injection. There was no effect of fetal "diabetes" on placental glycogen synthesis or on the distribution of placental glycogen between the maternal and fetal segments of the placenta, while it caused a marked decrease in the fetal liver glycogen content and fetal body weight. To assess the availability of placental glycogen as an energy source the placental glycogenolysis was investigated after hormonal stimulation. Catecholamines were effective in inducing lactate formation both in vivo and in vitro in nondiabetic and diabetic rats. Protracted activation of the adenylate cyclase system by cholera toxin administration pronouncedly reduced placental glycogen in vivo.
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PMID:Placental glycogen metabolism in diabetic pregnancy. 183 20

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