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: UNIPROT:P01275 (glucagon)
26,492 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In order to investigate whether somatostatin plays a role in the regulation of thyroid hormone secretion we have compared the effects of a prolonged somatostatin infusion on insulin and glucagon levels, on the one hand, with its effect on T4, T3, rT3 and TSH, on the other. Furthermore, the serum levels of somatomedin A were determined. Saline was infused in control experiments. Cyclic somatostatin was given as an i.v. bolus of 200 micrograms followed by a constant rate infusion of 50 micrograms/h during 24 hours. Somatostatin suppressed basal insulin and glucagon levels as well as insulin responses to meals but did not influence somatomedin A levels. T4 and T3 decreased during the first hour, whether somatostatin was given or not. Thereafter, T4 and T3 remained stable in the control experiments, while they continued to decrease slowly when somatostatin was added. The suppressive effect of somatostatin was significant 11 hours (p less than 0.05) and 24 hours (p less than 0.005) after the onset of the infusion. In contrast, rT3 and TSH were not suppressed by somatostatin. The fact that basal TSH did not decrease, favors the idea that the suppression of T4 and T3 was mainly due to a direct inhibitory effect of somatostatin on the thyroid gland. Our observation that a low dose of somatostatin decreases peripheral T4 and T3 levels supports the idea that somatostatin plays a role in the regulation of thyroid hormone secretion.
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PMID:Effect of 24-hour somatostatin infusion on glucose homeostasis and on the levels of somatomedin A and pancreatic and thyroid hormones in man. 39 78

Short- and long-term regulation of hepatic carbohydrate metabolism by insulin-like growth factor II was studied in primary cultures of adult rat hepatocytes and compared to the metabolic potency of insulin. Insulin-like growth factor II stimulated glycogen synthesis from [14C]glucose, uptake of [3H]aminoisobutyric acid and [14C]lactate formation from [14C]glucose up to three-fold. Basal glycogenolysis was inhibited to about 10%, and glucagon-activated glycogenolysis was blocked completely. The enzymatic activity of glucokinase and pyruvate kinase was induced two-fold, the glucagon-dependent induction of phosphoenolpyruvate carboxykinase was antagonized. Compared to insulin, half-maximal responses required up to 50 times higher insulin-like growth factor II concentrations ranging from 10-20 nmol/l. A similar difference was observed for binding affinity of insulin-like growth factor II to the insulin receptor. The interaction with the insulin-like growth factor II/mannose 6-phosphate (IGF-II/Man-6-P) receptor was examined by studying 125I-insulin-like growth factor II binding and uptake of lysosomal enzymes. The affinity of insulin-like growth factor II to the IGF-II/Man-6-P receptor was considerably higher than for the insulin receptor. Antibodies against the IGF-II/Man-6-P receptor did not affect metabolic responses to insulin-like growth factor II, while binding to its receptor and the receptor-mediated endocytosis of arylsulphatase A were strongly inhibited. Thus, in adult rat liver insulin-like growth factor II appeared to exert metabolic actions not via interaction with its own receptor but through low affinity binding to hepatic insulin receptors.
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PMID:Metabolic actions of insulin-like growth factor II in cultured adult rat hepatocytes are not mediated through the insulin-like growth factor II receptor. 134 10

Somatomedin/insulin-like growth factors have been noted to produce insulin-like actions on the liver that include the ability to inhibit the formation of glucagon-stimulated but not basal c-AMP production. This raises the possibility that these compounds may also be able to inhibit glucagon-stimulated hepatic gluconeogenesis. The purpose of this study was to determine the effects of varying concentrations of somatomedin-A on glucagon-stimulated gluconeogenesis in isolated perfused rat liver. The infusion of glucagon increased the rate of gluconeogenesis from 0.0038 +/- 0.001 to 0.042 +/- 0.007 microM 14C-glucose made from 14C-alanine per min. This action of glucagon was reduced to 22% of its maximum by the coinfusion of 1 microU/ml of SM-A and completely eliminated by the coinfusion of 100 microU/ml of SM-A. Somatomedin alone did not alter the basal rate of gluconeogenesis. The decrease in the release of 14C glucose from livers that had been stimulated by glucagon could not be attributed to increased glycogenolysis. Thus, it appears that the reduction in 14C release represents SM-A mediated reduction in glucagon-stimulated gluconeogenesis.
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PMID:Somatomedin-A inhibits glucagon-stimulated hepatic gluconeogenesis. 273 82

The influence of cyclic 3',5'-guanosine monophosphate (cGMP) on the lipolytic and antilipolytic (inhibition of glucagon-stimulated lipolysis) responses to GH (1 microgram/ml) was examined in chicken adipose tissue in vitro. Both 8-bromo-cGMP (0.1 mM) and sodium nitroprusside (1 mM) (a guanyl cyclase stimulator) completely inhibited the lipolytic effect of GH. A cGMP-lowering agent, LY83583 (10 microM), reversed the inhibitory effect of sodium nitroprusside on GH-stimulated lipolysis. Furthermore, the suppressive effects of insulin (100 ng/ml), insulin-like growth factor I (IGF-I) (100 ng/ml), or insulin-like growth factor II (IGF-II/MSA) (100 ng/ml), but not somatostatin (1 ng/ml), on GH-stimulated lipolysis were prevented by LY83583 addition. Neither 8-bromo-cGMP, sodium nitroprusside, nor LY83583 altered GH-induced inhibition of glucagon (1 ng/ml)-stimulated lipolysis. It is proposed that cGMP may mediate inhibitory control of GH-stimulated lipolysis by insulin, IGF-I, and IGF-II in chicken adipose tissue.
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PMID:Inhibition of growth hormone-induced lipolysis by 3',5'-guanosine monophosphate in chicken adipose tissue in vitro. 284 72

To determine which hormones might regulate somatomedin secretion in the fetus, we measured somatomedin levels in conditioned medium from primary cultures of fetal rat hepatocytes. We employed a bioassay [( 3H]thymidine incorporation into DNA of chick embryo fibroblasts), a displacement assay [competition for binding of radiolabeled multiplication-stimulating activity (rat insulin-like growth factor II) to the somatomedin-binding protein] for total somatomedin, and the RIA for somatomedin-C. Epidermal growth factor and dexamethasone were the most active hormones tested; total somatomedin levels were 2-3 times above control levels. Rat GH was much less stimulatory. Human placental lactogen, glucagon, and insulin had little or no effect. Stimulation of somatomedin secretion by both epidermal growth factor and dexamethasone was time and dose dependent. The maximal response occurred at 48 h at a concentration of about 1 X 10(-7) M of either hormone. In the bioassay, stimulation by epidermal growth factor, but not dexamethasone, was detected. The steroid enhanced the secretion of an inhibitor that completely masked the mitogenic activity of the increased somatomedin levels. The somatomedin secreted by fetal hepatocytes exhibited immunological cross-reactivity with human somatomedin-C, but the levels were 500-fold less than those measured by our displacement assay. This suggests that the predominant fetal rat somatomedin is not somatomedin-C. We conclude that epidermal growth factor and dexamethasone, but not GH or placental lactogen, stimulated the secretion by fetal hepatocytes of a somatomedin which resembled multiplication-stimulating activity.
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PMID:Hormonal regulation of somatomedin secretion by fetal rat hepatocytes in primary culture. 387 Oct 85

Insulin and somatomedin A were shown to have inhibitory action on glucagon stimulated but not basal cyclic AMP production in isolated rat hepatocytes. The inhibition was dose-dependent and the potency per mol was about 100 fold higher for insulin than for somatomedin A.
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PMID:Effect of somatomedin A and insulin on cyclic AMP generation in isolated rat hepatocytes. 625 Sep 60

Insulin-degrading enzyme (IDE) is a component of a cytosolic complex that includes multicatalytic proteinase (MCP), the major cytoplasmic proteolytic activity. Insulin, the primary substrate for IDE, inhibits the proteolytic activity of the IDE-MCP complex but not of purified MCP. This provides a regulatory role for IDE in cellular proteolysis and a potential mechanism for intracellular insulin action. To examine the specificity and to explore the mechanisms for the IDE-MCP interaction, we studied the functional interaction of a variety of peptides with the complex. Atrial natriuretic peptide (ANP), relaxin, glucagon, proinsulin, and insulin-like growth factor II (IGF-II) bind to and are degraded by IDE. These peptides have significant inhibitory effects on the chymotrypsin-like and trypsin-like MCP catalytic activities but not the peptidyl-glutamyl hydrolyzing activity. A panel of peptides that are not ligands of IDE had no effect. To explore the potential mechanism for the IDE control of MCP activity, dose response curves for insulin-like growth factor I (IGF-I) and IGF-II effects on MCP chymotrypsin-like activity were determined. IGF-II, which (similar to insulin) is a good substrate for IDE, had a substantial inhibitory effect, whereas IGF-I, which is bound but poorly degraded, had little inhibitory activity on MCP. Proinsulin, another ligand of IDE that is tightly bound but poorly degraded, had a partial effect on MCP activity, but inhibited the full insulin effect. These data suggest a requirement for both the binding and degradation of IDE ligands for the full inhibition of MCP. Insulin-sized degradation products, substrates of IDE, also inhibited MCP activity. Further examination of the insulin effect on MCP included kinetic studies. Insulin produced a noncompetitive inhibition of both the chymotrypsin-like and trypsin-like activities of MCP. These data suggest that the insulin-IDE effect on MCP is due to conformational changes in the IDE-MCP complex and provide an intracellular mechanism of action for insulin.
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PMID:Characterization of the insulin inhibition of the peptidolytic activities of the insulin-degrading enzyme-proteasome complex. 900 Jun 94

Necrolytic migratory erythema is characterized by waves of irregular erythema in which a central bulla develops, and subsequently erodes and becomes crusted. It usually occurs in patients with an alpha-islet cell tumor of the pancreas. However, necrolytic migratory erythema has also been observed in patients without an associated glucagonoma. We describe a woman with iatrogenic necrolytic migratory erythema. She received intravenous glucagon for hypoglycemia associated with an insulin-like growth factor II-secreting hemangiopericytoma. After chemotherapy, she developed necrolytic migratory erythema. The characteristics of the previously reported patients with nonglucagonoma-associated necrolytic migratory erythema are reviewed. In patients with nonglucagonoma-associated necrolytic migratory erythema, the dermatosis-related conditions most commonly observed were celiac disease or malabsorption, cirrhosis, malignancy, and pancreatitis; less common conditions included hepatitis, inflammatory bowel disease, heroin abuse, and odontogenic abscess. Although the pathogenesis of necrolytic migratory erythema remains unknown, hyperglucagonemia appears to have had a causative role in the development of this dermatosis in our patient. Patients who develop necrolytic migratory erythema should be evaluated for the presence of a glucagonoma; if a glucagonoma is ruled out, evaluation for other conditions known to occur with necrolytic migratory erythema, such as liver disease, malabsorptive disorders, and nonislet-cell tumors is warranted.
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PMID:Iatrogenic necrolytic migratory erythema: a case report and review of nonglucagonoma-associated necrolytic migratory erythema. 959 6

Animal studies suggest a mediator role for neuroendocrine peptides and amines in regulating cell proliferation in the gastrointestinal epithelium. Our aim was to examine the effect of serotonin and selected gastrointestinal peptides on DNA synthesis in a rat and human small intestinal cell line in vitro. IEC-6 and FHs-74 cells were incubated with epidermal growth factor (EGF), insulin-like growth factor II, glucagon, substance P, neurokinin A, calcitonin gene-related peptide (GRP, CCGRP), neurotensin and serotonin. The cells were labelled with [methyl-3H] thymidine and processed for autoradiography. DNA synthesis was evaluated by the labelling index. Epidermal growth factor, insulin-like growth factor II, glucagon, and substance P increased the labelling index in a dose-related manner (P < 0.003). In contrast, a significant dose-dependent reduction of the labelling index was observed after administration of serotonin and neurokinin A (P < 0.0001). Neurotensin and CGRP did not affect the labelling index. EGF, insulin-like growth factor II, glucagon, substance P, serotonin and neurokinin A may be important physiological regulators of proliferation, of gastrointestinal cells.
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PMID:Serotonin and neuroendocrine peptides influence DNA synthesis in rat and human small intestinal cells in vitro. 964 38

Apart from insulinomas, pancreatic tumors are rarely complicated by hypoglycemia and some may produce insulin-like growth factor II (IGF-II). To our knowledge, IGF-II-producing pancreatic tumors associated with hypoglycemia have not been reported previously. We describe what we believe to be the first case of "big" IGF-II-producing pancreatic acinar cell carcinoma. A 68-year-old man presented with a history of recurrent hypoglycemia. Abdominal computed tomography scan and magnetic resonance imaging showed a mass, approximately 5 cm in diameter, in the tail of the pancreas and two low-density areas in the liver. Low serum glucose was associated with low insulin levels and high levels of hormones (i.e., glucagon and IGF-II) that are functionally opposite to insulin. Although serum IGF-II level was within the normal range, most IGF-II was of the high molecular weight form, as determined by Western immunoblot analysis. Based on these findings, a diagnosis of hypoglycemia induced by IGF-II-producing pancreatic tumor was made. Surgery was not possible because of the patient's poor general condition. The patient ultimately died as a result of malignant cachexia. At autopsy, a yellowish-white tumor was found in the tail of the pancreas, and a histopathologic diagnosis of acinar cell carcinoma was made. Immunohistologically, the tumor cells contained IGF-II in an irregular staining pattern, suggesting that the hypoglycemia was caused by a pancreatic tumor producing "big" IGF-II.
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PMID:Acinar cell carcinoma of the pancreas associated with hypoglycemia: involvement of "big" insulin-like growth factor-II. 977 47


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