UNIPROT:P61278 - FACTA Search

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

To define the role of immunoreactive glucagon (IRG) during exercise in diabetes, 12 insulin-deprived alloxan-diabetic (A-D) dogs were run for 90 min (100 m/min, 12 degrees) with or without somatostatin (St 0.5 microgram . kg-1 . min-1). Compared with normal dogs, A-D dogs were characterized by similar hepatic glucose production (Ra), lower glucose metabolic clearance, and higher plasma glucose and free fatty acid levels during rest and exercise. In A-D dogs IRG was greater at rest and exhibited a threefold greater exercise increment than controls, whereas immunoreactive insulin (IRI) was reduced by 68% at rest but had similar values to controls during exercise. Basal norepinephrine, epinephrine, cortisol, and lactate levels were similar in normal and A-D dogs. However, exercise increments in norepinephrine, cortisol, and lactate were higher in A-D dogs. When St was infused during exercise in the A-D dogs, IRG was suppressed by 432 +/- 146 pg/ml below basal and far below the exercise response in A-D controls (delta = 645 +/- 153 pg/ml). IRI was reduced by 1.8 +/- 0.2 microU/ml with St. With IRG suppression the increase in Ra seen in exercising A-D controls (delta = 4.8 +/- 1.6 mg . kg-1 . min-1) was virtually abolished, and glycemia fell by 104 to 133 +/- 37 mg/dl. Owing to this decrease in glycemia, the increase in glucose disappearance was attenuated. Despite the large fall in glucose during IRG suppression, counterregulatory increases were not excessive compared with A-D controls. In fact, as glucose levels approached euglycemia, the increments in norepinephrine and cortisol were reduced to levels similar to those seen in normal exercising dogs. In conclusion, IRG suppression during exercise in A-D dogs almost completely obviated the increase in Ra, resulting in a large decrease in plasma glucose. Despite this large fall in glucose, there was no excess counterregulation, since glucose concentrations never reached the hypoglycemic range.
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PMID:Important role of glucagon during exercise in diabetic dogs. 286 45

To examine the beta-adrenergic effects of the catecholamines in poorly controlled diabetes, we have studied insulin-deprived alloxan-diabetic (A-D) dogs during 90 min of moderate exercise (100 m/min, 10-12 degrees) alone (C) or with propranolol (5 micrograms . kg-1 . min-1) (P) or combined P and somatostatin infusion (0.5 microgram . kg-1 . min-1) (P + St). In P, in contrast to C, immunoreactive glucagon (IRG) rose only after 50 min of exercise. However, hepatic glucose production (Ra) rose normally. In P + St, IRG fell 50% below basal, and the Ra response to exercise was abolished. Interestingly, in P and P + St, glucose metabolic clearance rate (MCR) rose by 400% above the inadequate MCR response to exercise in C, despite 30% lower insulin levels. Compared with C, free fatty acids (FFA) and lactate were sharply reduced during P and P + St. Plasma glucose (G) did not change in C, but due to elevated glucose uptake, G fell over 120 mg/dl in P, and due to diminished Ra, G fell 170 mg/dl in P + St. Norepinephrine was similar in all groups. Epinephrine and cortisol were higher in P + St by 90 min of exercise, perhaps as a result of hypoglycemia. In summary, during exercise in poorly controlled A-D dogs, beta-blockade does not appear to affect Ra; beta-blockade leads to diminished mobilization of extrahepatic substrate as evidenced by reduced FFA and lactate levels; beta-blockade increases MCR to levels seen in normal dogs during exercise alone.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Role of beta-adrenergic mechanisms during exercise in poorly controlled diabetes. 286 46

We have previously shown that the antidiabetic property of fenugreek seeds (Trigonella foenum graecum L.) is associated with the defatted seed material which is rich in fibers, saponins, and proteins. In the present work this defatted preparation was divided into two subfractions: subfraction "a" which contains the testa and endosperm and is rich in fibers (79.6%); and subfraction "b" which contains the cotyledons and axes and is rich in saponins (7.2%) and proteins (52.8%). We investigated the effects of each subfraction on hyperglycemia and the levels of pancreatic hormones when chronically administered to alloxan-diabetic dogs. Each subfraction was studied separately and was given to the dogs per os (mixed with the two daily meals), in addition to the insulin treatment (which was kept the same throughout the experiment) for a period of 21 days. The addition of subfraction "a" to insulin treatment resulted in a clear decrease of hyperglycemia and glycosuria accompanied by a reduction of the high plasma glucagon and somatostatin levels in diabetic dogs. The treatment also decreased the hyperglycemic response to the oral glucose tolerance test. In contrast the chronic administration of subfraction "b" had no effect on hyperglycemia or on the levels of pancreatic hormones in diabetic dogs. Our results show that the antidiabetic properties of fenugreek seeds are contained in the testa and endosperm. Although this subfraction is rich in fibers (high viscosity; 115 cP), it is not possible to exclude the existence of one or more unknown active pharmacological compounds in this subfraction of the seed.
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PMID:Antidiabetic effects of subfractions from fenugreek seeds in diabetic dogs. 287 58

The glucagon-suppressing activity of insulin and somatostatin were compared at high and low glucose concentrations. In normal dogs made hyperglucagonemic by phloridzin pretreatment, insulin and somatostatin suppressed glucagon at rates of 47 +/- 8 and 35 +/- 8%/h (NS), respectively, despite profound hypoglycemia. In severely hyperglycemic alloxan-diabetic dogs, insulin and somatostatin suppressed glucagon at rates of 48 +/- 13 and 54 +/- 6%/h, respectively, not different from the nondiabetic dogs. After phloridzin pretreatment to eliminate hyperglycemia in the diabetic dogs, insulin and somatostatin suppressed 51 +/- 8 and 31 +/- 10%/h (NS), respectively. Glucose infused in the phloridzin-pretreated insulin-deprived group suppressed glucagon only partially; insulin was required to reduce it further. We conclude that insulin and somatostatin suppress glucagon at similar rates irrespective of ambient glucose levels, and that diabetic hyperglucagonemia represents the summation of stimulation by insulin lack minus suppression by the associated hyperglycemia.
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PMID:Relationship of glucagon suppression by insulin and somatostatin to the ambient glucose concentration. 287 38

In order to determine the role of glucagon in futile or substrate cycling in diabetes, we measured tracer determined glucose kinetics during a combined infusion of 2-3H-glucose (total glucose production) and 6-3H-glucose (glucose production) in six alloxan-diabetic dogs. The animals received either a 420 min infusion of (1) somatostatin alone (0.3 microgram X kg-1 X min-1), (2) somatostatin with insulin replacement (100 microU X kg-1 X min-1) or (3) glucagon (6 ng X kg-1 X min-1) together with somatostatin and transient insulin replacement. When somatostatin was given alone, plasma glucagon (p less than 0.004) and insulin (p less than 0.0001) were suppressed. Glucose production and disappearance and plasma glucose concentrations fell (p less than 0.0001), but the metabolic clearance of glucose did not change significantly. In the basal state, futile cycling comprised 29 +/- 4%, 33 +/- 4% and 33 +/- 3% of total glucose production in the three groups of studies, which is high compared to normal dogs. The absolute rate of futile cycling fell slightly but significantly from 10.0 +/- 1.7 to 8.3 +/- 1.7 mumol X kg X -1 min-1 (p less than 0.0008). When insulin replacement was given during somatostatin infusion to correct for the small somatostatin-induced insulin suppression, there were similar changes in plasma glucagon, glucose concentrations and glucose kinetics as seen during the infusion of somatostatin alone. Futile cycling decreased to a slightly greater extent from 12.8 +/- 2.8 to 9.5 +/- 1.7 mumol X kg-1 X min.-1 (p less than 0.02).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Importance of glucagon in the control of futile cycling as studied in alloxan-diabetic dogs. 288 59

This study was performed to investigate the role of pancreatic B-cell function on glucagon and somatostatin response to arginine. Isolated perfused rat pancreas was used for the experiment. Acute B-cell destruction was induced in vitro by 0.56 mM alloxan infused directly into the vascular system of the perfused pancreas. This resulted in a fall in basal insulin release and in a complete absence of hormone response to 20 mM arginine. Glucagon and somatostatin release during metabolic stimulus was superimposable on that observed in the control experiments (no alloxan infusion). We conclude that a normal B-cell function is not required for glucagon and somatostatin response to arginine.
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PMID:Pancreatic A- and D-cell response to arginine during acute alloxan-induced intra-islet insulinopenia. 289 95

This work was undertaken to study the effect of glucose on pancreaticoduodenal and peripheral venous somatostatin-like immunoreactivity (SLI) levels in dogs. Our experiments were performed in normal and alloxan diabetic dogs, conscious or anesthetized. The response of somatostatin was studied following intravenous (0.2 g/kg) or oral (1 g/kg) glucose administration. SLI levels were assayed in peripheral venous blood and in superior pancreaticoduodenal venous blood. An interplay of the cholinergic nervous system was challenged both after oral and intravenous glucose load by a prior administration of atropine sulfate (0.2 mg/kg i.v.). Our results show that (a) peripheral venous SLI levels do not reflect pancreatic D-cell activity in alloxan diabetic as in normal animals. (b) Increase of peripheral venous SLI level after oral glucose is under cholinergic nervous system control. (c) In alloxan diabetic dogs, the response of pancreaticoduodenal venous SLI to intravenous glucose was decreased, whereas peripheral SLI response to oral glucose was increased.
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PMID:In vivo study of glucose-induced somatostatin secretion: comparison in normal and alloxan-diabetic dogs. 289 26

We examined the release of growth hormone-release inhibiting factor (somatostatin) from dispersed hypothalamic cells obtained from mature diabetic rodents and normal age-matched controls, in an attempt to demonstrate a possible hypothalamic defect which might underlie some of the reported abnormalities in somatotrophic function in diabetes mellitus. Insulinopoenic diabetes was induced by either streptozotocin or alloxan. Somatostatin release from cells from diabetic rats was diminished both basally and after stimulation by membrane depolarisation. Stimulated release was calcium dependent in cells from both normal and diabetic animals. The defect was present in both streptozotocin and alloxan induced diabetes. We also compared hypothalamic somatostatin release from cells obtained from obese hyperinsulinaemic C57 BL/Ks db/db diabetic mice and non diabetic lean litter mates (db/-). Despite longstanding marked hyperglycaemia, no significant alteration in somatostatin release was apparent. Likewise, starvation of rats for 5 days did not result in significant diminution of somatostatin release. These observations document a defect in hypothalamic somatostatin release in experimentally induced insulinopoenic diabetes, which is not apparent in the db/db mouse, suggesting that glucose per se is not responsible. Rather than the anticipated increase in hypothalamic somatostatin release in insulinopoenic diabetes, a reduction in release was observed. These observations are compatible with the hypothesis that increased hypothalamic somatostatin release is not responsible for abnormal growth hormone secretion in this model.
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PMID:Somatostatin release from dispersed hypothalamic cells: effects of diabetes. 289 19

Diabetes was induced by administration of alloxan (150 mg/Kg) to 24 h-fasted rabbits. Somatostatin-like immunoreactivity (SLI) and cytosolic binding sites for somatostatin in gastric fundic mucosa were studied using radiolabelled Tyr11-somatostatin. Three months after the onset of the disease, the specific binding of somatostatin to these sites was seen to be significantly lower, due to a reduction in the number (but not the affinity) of specific somatostatin binding sites of high-affinity and a disappearance of the specific somatostatin binding sites of low-affinity. These changes were associated with an increase in the SLI concentration in both gastric fundic mucosa and plasma.
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PMID:Effects of alloxan-induced diabetes on somatostatin binding to cytosolic components of rabbit gastric fundic mucosa. 290 77

The effects of cytotoxic drugs and inhibitors of insulin secretion were examined in vivo in rats with a radiation-induced transplantable insulinoma, and in vitro using cultured rat insulinoma cells and the derived RINm5F insulin-secreting cell line. Administration of diazoxide to insulinoma-bearing rats resulted in a transient decrease of plasma insulin with a temporary rise of glucose concentrations. Mannoheptulose and somatostatin failed to affect the marked hyperinsulinaemia and hypoglycaemia. Streptozotocin produced a rapid and sustained decrease of insulin concentrations in insulinoma-bearing rats, accompanied by a progressive elevation of plasma glucose. Administration of alloxan failed to affect circulating insulin or glucose concentrations. In vitro, streptozotocin and alloxan exerted approximately equipotent time-dependent and concentration-dependent cytotoxic effects on insulinoma cells and RINm5F cells as established by cell staining with trypan blue. The cytotoxic actions of both drugs were decreased by agents believed to scavenge free radicals or to act as inhibitors of poly(ADP-ribose) synthetase. The results suggest that the cytotoxic actions of streptozotocin and alloxan on rat insulinoma cells and RINm5F cells are mediated by the generation of hydroxyl free radicals and DNA strand breaks. The ineffectiveness of alloxan in insulinoma-bearing rats probably reflects the high rate of decomposition of the drug in vivo.
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PMID:Effects of cytotoxic drugs and inhibitors of insulin secretion on a serially transplantable rat insulinoma and cultured rat insulinoma cells. 303 37

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