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:P61278 (somatostatin)
22,083 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Juvenile diabetic patients were studied 60-72 hours after insulin withdrawal when moderate ketoacidosis had developed. Somatostatin infusion for 4 hours in five patients resulted in almost complete suppression of plasma pancreatic glucagon and growth hormone, a fall in plasma-cyclic-adenosine-monophosphate (A.M.P.) concentrations, and a large fall in plasma-glucose concentration. After infusion plasma concentrations of these substances rose again. Blood-ketone-bodies, plasma-free-fatty-acids (F.F.A.), and plasma glycerol concentrations, however, did not decrease appreciably with somatostatin administration. In three patients 2 to 3 h somatostatin infusions were twice superimposed upon a continuous 9-5 h insulin infusion (1 unit/h). An insulin effect was noticeable within 30 minutes, with pronounced falls in the concentrations of plasma glucose, pancreatic glucagon, F.F.A., and blood-ketone-bodies. There was no significant change in these patterns when somatostatin was administered or withdrawn. These results do not indicate that somatostatin infusion would be useful in the treatment of manifest diabetic ketoacidosis.
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PMID:Failure of somatostatin to correct manifest diabetic ketoacidosis. 5 30

In a group of pancreatectomized subjects, immunoreactive glucagon (IRG) concentrations were normal after an overnight fast, increased after oral glucose, were not suppressed by somatostatin (SRIF) or insulin, and in two of four subjects they rose with an arginine infusion. Even though the SRIF infusion failed to lower IRG, there was a fall in plasma glucose concentration in both subjects. In two subjects, endogenous hyperglycemia occurred during insulin withdrawal without a rise in IRG, and, in one subject, mild diabetic ketoacidosis developed with only a minimal rise in IRG. These results support the presence of an extrapancreatic source of IRG in man. Secretion from these extrapancreatic alpha cells appears to be regulated differently than secretion from pancreatic alpha cells.
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PMID:Immunoreactive glucagon responses to oral glucose, insulin infusion and deprivation, and somatostatin in pancreatectomized man. 70 Feb 56

Glucagon is secreted not only by A2-cells of the pancreatic islets but also by A cells in the gastric fundus and duodenum. Several reports have demonstrated that the glucagon plasma concentration is increased in genetic diabetes as well as in many conditions associated with a decreased glucose tolerance such as hepatic cirrhosis, myocardial infarction, infectious diseases, burns, taumatic shock, glucagonomas, acute pancreatitis, acromegaly, pheochromacytoma and Cushing's syndrome. Hyperglucagonemia is particularly important in diabetic ketoacidosis and in non-ketotic hyperosmolar coma. The mechanisms responsible for the diabetic's hyperglucagonemia remain controversial. According to several authors, the increased glucagon secretion is, for its main part, secondary to a prolonged defect in insulin secretion and thus relatively insensitive to an acute insulin administration. According to others, the A cell abnormality is of primary origin, independant from insulin deficiency and its effects are cumulative with those of the insulin lack. Several reports dealing with induced or spontaneous experimental diabetes are in favor of the first or the second hypothesis. It appears likely that glucagon plays a role in the metabolic derangments of diabetes. Indeed, hepatic glucose production is closely related to the ratio of molar concentrations of insulin and glucagon. Finally, in insulin-dependant diabetics, somatostatin infusion reduces plasma glucagon concentration and blood glucose and prevents the development of ketosis after withdrawal of insulin therapy. These results illustrate the contribution of glucagon in the pathogenesis of hyperglycemia and ketosis. Several arguments have been accumulated in favor of the following concept: diabetes hyperglycemia results both from glucose under-utilization secondary to insulin lack and from hepatic glucose over-production due to glucagon excess. Although controversial, the role of glucagon in ketogenesis appears likely.
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PMID:[The role of glucagon in hyperglycemia. A review (author's transl)]. 79 28

To evaluate the role of glucagon in the pathogenesis of diabetic ketoacidosis in man, we studied the effect of suppression of glucagon secretion by somatostatin on changes in plasma beta-hydroxybutyrate and glucose concentrations (as well as changes in their precursors) after acute withdrawal of insulin from seven patients with juvenile-type diabetes. Suppression of glucagon secretion prevented the development of ketoacidosis for 18 hours after acute insulin withdrawal, whereas in control studies mild ketoacidosis occurred 10 hours after insulin was stopped. Plasma beta-hydroxybutyrate, glucose, free fatty acid, and glycerol levels were all markedly lower during suppression of glucagon secretion (p smaller than 0.001), whereas plasma alanine levels were higher (p smaller than 0.001). These studies indicate that insulin lack per se does not lead to fulminant diabetic ketoacidosis in man and that glucagon, by means of its gluconeogenic, ketogenic, and lipolytic actions, is a prerequisite to the development of this condition.
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PMID:Prevention of human diabetic ketoacidosis by somatostatin. Evidence for an essential role of glucagon. 80 37

The growth-hormone-release-inhibiting hormone somatostatin was infused in seven juvenile diabetic subjects during an arginine infusion test and in six juvenile diabetic subjects during an L-dopa stimulation test. The plasma growth hormone response to arginine and L-dopa was completely inhibited by somatostatin. The plasma pancreatic glucagon response to arginine was also inhibited by somatostatin. The plasma pancreatic glucagon level was not changed by L-dopa, but somatostatin induced a significant fall in this level. The plasma glucose increase after arginine and L-dopa administration was slightly inhibited by somatostatin. The arginine-induced fall in free fatty acids was prevented by somatostatin, and the L-dopa-induced rise in free fatty acids was enhanced by somatostatin. The growth hormone- and glucagon-surppressive effect of somatostatin may prove useful in controlling the metabolic state and in preventing the development of angiopathy in diabetic patients. A somatostatin preparation with prolonged activity is needed for lifelong administration, but the presently available compound may be of value as an adjunct in the standard treatment of diabetic ketoacidosis and coma.
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PMID:The effect of somatostatin on the rise of growth hormone and glucagon secretion induced by arginine and L-dopa in diabetic patients. 115 17

To establish a qualitative and quantitative model of blood glucose response to stress hormone exposure, healthy subjects (HS) on and off somatostatin (250 micrograms/h) as well as insulin dependent diabetic patients were infused with either epinephrine (E), glucagon (G), cortisol (F), growth hormone (GH) or with a cocktail of these hormones raising plasma stress hormones to values seen in severe diabetic ketoacidosis. The developed input/output model consists of two submodels interconnected in series plus two additional submodels for correction of gains describing both sensitivity of tissue response and utilisation as well as provision of glucose. It was shown and confirmed experimentally that blood glucose response to stress hormones was essentially nonlinear. Furthermore, the mathematical models for healthy subjects and for insulin dependent diabetic patients proved to be of the same structure and differed only in the values of some typical parameters. The model raises the possibility to describe and in part to predict blood glucose response to stress hormone exposure in healthy man and insulin dependent diabetic patients.
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PMID:Blood glucose response to stress hormone exposure in healthy man and insulin dependent diabetic patients: prediction by computer modeling. 135 49

The effect of glucocorticoids on adipose tissue lipolysis in animals and humans is controversial. To determine whether a physiological increase in plasma cortisol, similar to that observed in diabetic ketoacidosis and other stress conditions, stimulates lipolysis, palmitate kinetics were measured in seven nondiabetic volunteers on two occasions with [1-14C]palmitate as a tracer. Subjects received a 6-h infusion of either 2 micrograms.kg-1.min-1 hydrocortisone or saline in random order. On both occasions, a pancreatic clamp (0.12 micrograms.kg-1.min-1 somatostatin, 0.05 mU.kg-1.min-1 insulin, and 3 ng.kg-1.min-1 growth hormone) was used to maintain plasma hormone concentrations at desired levels. Plasma cortisol concentrations increased to approximately 970 nM during cortisol infusion. Palmitate rate of appearance (Ra) and concentration increased by approximately 60% during cortisol infusion but did not change during saline infusion. Increments in palmitate Ra and concentration over the 6-h study were significantly greater during cortisol than saline infusion when compared by area-under-the-curve analysis (152 +/- 52 vs. -48 +/- 23 mumol.kg-1 and 12.2 +/- 4.1 vs. -4.9 +/- 4.1 mmol.min-1.L-1, respectively; P less than 0.02). Plasma glucose concentrations did not change significantly during cortisol (5.0 +/- 0.3 vs. 6.1 +/- 0.6 mM, NS) or saline (4.9 +/- 0.2 vs. 4.9 +/- 0.1 mM, NS) infusion. In nondiabetic volunteers, a 6-h cortisol infusion was associated with a 60% increase in palmitate Ra that did not occur with saline infusion. Thus, physiological hypercortisolemia may contribute to the increased rates of lipolysis observed in humans during stress.
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PMID:Stimulation of lipolysis in humans by physiological hypercortisolemia. 193 85

1. Exogenous somatostatin inhibits glucagon secretion and prevents ketoacidosis in diabetic patients, but has the therapeutic disadvantage of requiring continuous intravenous infusion to exhibit these effects. 2. Consequently, we examined the effect of subcutaneous administration of the long-acting somatostatin analogue octreotide (SMS 201-995) on early ketogenesis in diabetic ketoacidosis. On two separate occasions insulin was withdrawn over a period of 9 h from seven type I diabetic patients. On the second occasion the patients were given 50 micrograms octreotide s.c. before the insulin withdrawal and every 3 h during insulin withdrawal. 3. Differences in integrated free fatty acid responses (4706 +/- 1227 mumol l-1 h vs 3026 +/- 835 mumol l-1 h, AUC, P = NS) were not significant, but the peak increments of acetoacetate (1413 +/- 354 mumol l-1 vs 612 +/- 176 mumol l-1, P less than 0.05), beta-hydroxybutyrate (2180 +/- 475 mumol l-1 vs 922 +/- 246 mumol l-1, P less than 0.01) and the decrements in plasma bicarbonate (-8 +/- 1 mumol l-1 vs -4 +/- 1 mumol l-1, P less than 0.05) and pH (-0.07 +/- 0.01 vs -0.03 +/- 0.01, P less than 0.05) were significantly less with octreotide. 4. At the same time peak increments of glucagon were lower with octreotide treatment (329 +/- 206 pg ml-1 vs 39 +/- 30 pg ml-1, P less than 0.05). 5. We conclude that, despite accelerated lipolysis and provision of substrate for ketogenesis during insulin withdrawal, this somatostatin analogue significantly reduces ketogenesis resulting from insulin deprivation, probably secondary to decreasing glucagon secretion. This drug may be useful in short term prophylactic treatment of diabetic patients during periods of increased risk for ketoacidosis.
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PMID:Preventive effects of octreotide (SMS 201-995) on diabetic ketogenesis during insulin withdrawal. 195 71

Pharmacological studies have shown that the addition of somatostatin to insulin promotes a more rapid recovery from diabetic ketoacidosis. However, contradictory results have been reported concerning the action of somatostatin on platelet function, frequently deranged in diabetes. Therefore the plasma levels of thromboxane B2, a stable metabolite of proaggregatory thromboxane A2 and of beta-thromboglobulin, a marker of platelet activation, were studied in 9 control subjects and in 13 insulin-dependent diabetic patients before and during somatostatin injection, administered as an initial 250 micrograms iv bolus followed by infusion of 300 micrograms over 3 h. In both groups, after somatostatin infusion thromboxane B2 and beta-thromboglobulin levels showed, respectively, a progressive fall and an increase up to the second hour. Over the next hour thromboxane B2 increased and beta-thromboglobulin decreased but their levels did not return to basal values. During this experiment beta-thromboglobulin plasma values in diabetic patients did not differ from those of control subjects. In contrast, thromboxane B2, decreased in relation to pharmacological treatment, maintained elevated levels. Our data, however, demonstrate that the dose of somatostatin used, produced in the diabetic patients a normal fall of thromboxane B2 in terms of percentage of base-line values, but increases of beta-thromboglobulin lower than in control subjects. It is suggested that platelet function should be evaluated when somatostatin is used in the treatment of poorly controlled type I diabetes.
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PMID:Effects of somatostatin on the behaviour of thromboxane B2 and beta-thromboglobulin in type I diabetes. 240 35

High circulating levels of somatostatin (SRIF) were detected in a patient with a metastatic tumour after development of diabetic ketoacidosis (DKA). Fasting insulin and C-peptide levels were markedly suppressed, but plasma glucagon was not suppressed below normal. Progressive cachexia ensued; at autopsy a poorly differentiated non-small cell neuroendocrine carcinoma metastatic to liver was found. Small gallstones were noted. Electron microscopy of tumour tissue showed neurosecretory granules and tonofilament bundles. Immunohistochemical staining of tumour cells was diffusely positive for carcinoembryonic antigen, bombesin-like immunoreactivity, and calcitonin with focal immunoreactivity for SRIF, serotonin, neuron-specific enolase, chromogranin, and epithelial membrane antigen. Column chromatography of plasma and tumour extract revealed five or more peaks of material with SRIF-like immunoreactivity (SRIF-LI): predominantly SRIF-28 and intermediates in tumour extract, and SRIF-14 and an intermediate between SRIF-28 and SRIF-14 in plasma, DKA in this case of somatostatinoma syndrome may reflect differential effects of tumour production of larger molecular weight SRIF forms on insulin and glucagon secretion.
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PMID:Malignant somatostatinoma presenting with diabetic ketoacidosis. 282 97


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