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)

GH secretion is markedly blunted in obesity; however, the mechanism(s) mediating this response remains to be elucidated. In the present study we examined the involvement of the two hypothalamic GH-regulatory hormones, GH-releasing factor (GRF) and somatostatin (SRIF), using the genetically obese male Zucker rat. Spontaneous GH, insulin, and glucose secretory profiles obtained from free moving, chronically cannulated rats revealed a marked suppression in amplitude and duration of GH pulses in obese Zucker rats compared to their lean littermates (mean 6-h plasma GH level, 3.9 +/- 0.4 vs. 21.5 +/- 3.8 ng/ml; P less than 0.001). Obese rats also exhibited significant hyperinsulinemia in the presence of normoglycemia. The plasma GH response to an iv bolus of 1 microgram rat GRF-(1-29)NH2, administered during peak and trough periods of the GH rhythm, was significantly attenuated in obese rats at peak (137.4 +/- 26.1 vs. 266.9 +/- 40.7 ng/ml; P less than 0.02), although not at trough, times. Passive immunization of obese rats with a specific antiserum to SRIF failed to restore the amplitude of GH pulses to normal values; the mean 6-h plasma GH level of obese rats given SRIF antiserum was not significantly different from that of obese rats administered normal sheep serum. Both pituitary wet weight and pituitary GH content and concentration were reduced in the obese group. Measurement of hypothalamic GRF immunoreactivity revealed a significant (P less than 0.05) reduction in the mediobasal hypothalamic GRF content in obese rats (503.2 +/- 60.1 pg/fragment) compared to that in lean controls (678.1 +/- 50.2 pg/fragment), although no significant difference was observed in hypothalamic SRIF concentration. Peripheral SRIF immunoreactive levels were significantly (P less than 0.01) elevated in both the pancreas and stomach of obese rats. These results demonstrate that the genetically obese Zucker rat exhibits 1) marked impairment in both spontaneous and GRF-induced GH release, which cannot be reversed by SRIF immunoneutralization, 2) significant reduction in pituitary GH concentration, 3) depressed hypothalamic GRF content, and 4) elevated gastric and pancreatic, but not hypothalamic, SRIF levels. The findings suggest that the defect in pituitary GH secretion observed in the genetically obese Zucker rat is due, at least partially, to insufficient stimulation by hypothalamic GRF, and that SRIF does not play a significant role.
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PMID:Mechanisms of impaired growth hormone secretion in genetically obese Zucker rats: roles of growth hormone-releasing factor and somatostatin. 197 30

The effects of suckling on plasma somatostatin, insulin and gastrin values were evaluated in eight nursing women on the 3rd to 4th day postpartum. Plasma prolactin levels were also determined. Prolactin levels increased in response to suckling, as expected. Insulin levels also rose, whereas somatostatin and gastrin concentrations did not change after suckling. It is possible that the suckling-induced hyperinsulinemia blunts the somatostatin response to suckling in humans.
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PMID:Influence of suckling on plasma concentrations of somatostatin, insulin and gastrin in lactating women. 197 86

Non-insulin-dependent diabetes mellitus (NIDDM) is a common disorder occurring in 3-6% of adults in most western populations. In the United States, 29% of patients with diabetes take insulin; of these, 76% have NIDDM. Insulin therapy is usually required at some time in NIDDM. Insulin therapy improves the abnormalities of NIDDM (reduced beta-cell function, increased hepatic glucose production, reduced peripheral glucose disposal, lipid abnormalities). Insulin and sulfonylurea agents have comparable effects on mild forms of NIDDM, but for more severe forms, insulin is usually superior. Combination insulin-sulfonylurea treatment may improve the response to sulfonylureas, although long-term well-controlled trials have not been conducted. Short-term insulin treatment may restore response to sulfonylureas. Other promising treatments (human proinsulin, nasal insulin, somatostatin) have not shown any advantage over conventional insulin therapy. Insulin causes hypoglycemia and peripheral hyperinsulinemia. The hazards of hyperinsulinemia, e.g., weight gain and hypoglycemia, have been overstated, and questions about its atherogenic effects remain to be resolved. The effect of glycemic control on macro- and microvascular complications has not been established; however, maintaining fasting blood glucose levels of less than 6.7 mM may protect against progression of retinopathy, neuropathy, and nephropathy and reduce the severity of ischemic stroke. Dosage algorithms generally use intermediate- or long-acting insulin to control basal glycemia, with regular insulin added before meals if needed to control postprandial glycemia. Effective therapy depends on the patient being informed, cooperative, and willing to self-monitor blood glucose. Insulin treatment intermittency increases the risk for immune complications (resistance and allergy). Overall, patients with NIDDM can benefit from insulin therapy.
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PMID:Treatment of NIDDM with insulin agonists or substitutes. 198 Apr 53

The aim of the present study was to evaluate whether the inhibitory effect on pancreatic A-cell exerted by hyperglycemic hyperinsulinemia and/or by somatostatin administration is impaired in human obesity. For this purpose plasma glucagon concentrations were measured in 8 obese and 8 nonobese nondiabetic subjects during a 4-h hyperglycemic clamp. Synthetic cyclic somatostatin-14 was infused at the rate of 2.5 nmol/min during the third hour of the study. Fasting plasma glucagon was higher in obese than in nonobese subjects (242 +/- 32 vs 163 +/- 15 pg/ml, p less than 0.05) (mean +/- SEM). In the last 20 min of the glucose infusion period preceding somatostatin administration (100-120 min of the study) plasma glucagon averaged 195 +/- 26 pg/ml in obese and 122 +/- 13 pg/ml in nonobese subjects (p less than 0.05), with a reduction of 19 +/- 3% in the former and 28 +/- 4% in the latter (p = n.s.). In both groups somatostatin infusion did not result in a further decrease in plasma glucagon, which averaged 192 +/- 27 pg/ml in obese and 123 +/- 16 pg/ml in nonobese subjects (p less than 0.05) in the 160-180 min period of the study. Also after discontinuing somatostatin infusion plasma glucagon levels did not change. These results suggest that in human obesity hyperglycemic hyperinsulinemia has a normal inhibitory effect on pancreatic A-cell and that somatostatin administration has no additive effect on hyperglycemia and hyperinsulinemia in either obese or nonobese nondiabetic subjects.
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PMID:Plasma concentrations of glucagon during hyperglycemic clamp with or without somatostatin infusion in obese subjects. 198 86

Pancreatic beta-cell and gut regulatory peptide responses were investigated in 13 healthy elderly and 12 young subjects (control group) after a standard meal test. In addition to hyperinsulinemia and hypergastrinemia, we found lower basal and postprandial total integrated responses (TIR) for gastric inhibitory polypeptide and bombesin in the elderly group. The mean postprandial TIR for neurotensin (NT) was significantly higher in the aged subjects, but the somatostatin response was suppressed in this group.
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PMID:Gut regulatory peptides and pancreatic beta-cell response to nutritional stimuli in the elderly. 198 70

The separate and combined effects of insulin and epinephrine on leucine metabolism were examined in healthy young volunteers. Subjects participated in four experimental protocols: 1) euglycemic insulin clamp (+80 microU/ml), 2) epinephrine infusion (50 ng.kg-1.min-1) plus somatostatin with basal replacement of insulin and glucagon, 3) combined epinephrine (50 ng.kg-1.min-1) plus insulin (+80 microU/ml) infusion, and 4) epinephrine and somatostatin as in study 2 plus basal amino acid replacement. Studies were performed with a prime-continuous infusion of [1-14C]leucine and indirect calorimetry. Our results indicate that 1) hyperinsulinemia causes a generalized decrease in plasma amino acid concentrations, including leucine; 2) the reduction in plasma leucine concentration is primarily due to an inhibition of endogenous leucine flux; nonoxidative leucine disposal decreases after insulin infusion; 3) epinephrine, without change in plasma insulin concentration, reduces plasma amino acid levels; 4) combined epinephrine-insulin infusion causes a greater decrease in plasma amino levels than observed with either hormone alone; this is because of a greater inhibition of endogenous leucine flux; and 5) when basal amino acid concentrations are maintained constant with a balanced amino acid infusion, epinephrine inhibits the endogenous leucine flux. In conclusion, the present results do not provide support for the concept that epinephrine is a catabolic hormone with respect to amino acid-protein metabolism. In contrast, epinephrine markedly inhibits insulin-mediated glucose metabolism.
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PMID:Dissociation of the effects of epinephrine and insulin on glucose and protein metabolism. 210 56

In the presence of fixed basal levels of insulin, the route of intravenous glucose delivery (protal vs. peripheral) determines whether net hepatic glucose uptake (NHGU) occurs. Our aims were to determine if the route of intravenous glucose delivery also plays a role in regulating NHGU in the presence of hyperinsulinemia and to determine if length of fast (18 vs. 36 h) influences regulation of NHGU. Five conscious dogs fasted 18 h were given somatostatin and replacement insulin (245 +/- 34 microU.kg-1.min-1) and glucagon (0.65 ng.kg-1.min-1) infusions intraportally. After a 40-min control period, the insulin infusion rate was increased fourfold, and glucose was infused for 3 h. Glucose was given either through a peripheral vein or the portal vein for 90 min to double the glucose load reaching the liver. The order of infusions was randomized. NHGU was measured with the arterial - venous difference technique. Insulin and glucagon levels were 12 +/- 2, 35 +/- 6, and 36 +/- 5 microU/ml and 55 +/- 12, 61 +/- 13, and 59 +/- 7 pg/ml during the control, peripheral, and portal infusions, respectively. The glucose infusion rate, the load of glucose reaching the liver, and the arterial-portal plasma glucose gradient were 0, 9.58 +/- 2.28, and 10.44 +/- 2.94 mg.kg-1.min-1; 29.4 +/- 3.6, 56.8 +/- 3.4, and 56.8 +/- 2.8 mg.kg-1.min-1; and 2 +/- 1, 5 +/- 1, and -51 +/- 15 mg/dl during the same periods.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Interaction between insulin and glucose-delivery route in regulation of net hepatic glucose uptake in conscious dogs. 221 65

The splenic pancreas of 165 day old diabetic KKAy and age-matched nondiabetic C57BL/6 mice was examined by morphometry and immunocytochemistry at the light microscopic level and by radioimmunoassay to evaluate the morphology, surface area, endocrine cell composition and hormone content of the pancreatic islets. The insulin cells of the diabetic mice were severely degranulated and many of the glucagon, somatostatin and pancreatic polypeptide cells were displaced from the mantle to the core of the islet tissue where the non-insulin cells appeared to lose their continuity. The topography of some of the islets of KKAy mice was further deranged by acinar cells among the endocrine tissue. Morphometric analysis revealed that the surface area of the islets of KKAy mice was significantly expanded in comparison with that of C57BL/6 mice. The volume and numerical percents of the insulin cells were significantly increased whereas those of the glucagon and somatostatin cells were decreased in the KKAy mice. Since only the mean absolute number of insulin cells was elevated in the diabetic mice, the alteration in the relative proportions of the non-insulin cells and hypertrophy of the islets seemed to be a manifestation of insulin cell hyperplasia. Pancreatic insulin and somatostatin contents were markedly diminished in the islets of KKAy compared with those of C57BL/6 mice. These results demonstrate that the microscopic anatomy, endocrine cell populations and hormone content of the pancreatic islets are deranged in the KKAy mouse with severe hyperinsulinemia and hyperglycemia.
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PMID:Analysis of pancreatic islet cells and hormone content in the spontaneously diabetic KKAy mouse by morphometry, immunocytochemistry and radioimmunoassay. 244 17

The role of insulin resistance and hyperinsulinemia in the etiology of fructose-induced hypertension was studied in male Sprague-Dawley rats. Rats consumed a fructose-enriched diet (containing 66% of total calories as fructose) for 11 days and were infused continuously during the last 7 days with either a somatostatin analogue or vehicle. At the end of this period, rats receiving the somatostatin analogue had a lower plasma insulin concentration (52 +/- 4 vs. 70 +/- 6 microunits/ml, p less than 0.01) and a lower blood pressure (133 +/- 2 vs. 150 +/- 2 mm Hg) than did the rats infused with the control solution. In addition, the increase in plasma triglyceride concentration in response to the fructose-enriched diet was significantly attenuated (p less than 0.001) in the rats infused with somatostatin. These data provide further support that the increase in blood pressure that occurs when normal rats are fed a high fructose diet is dependent on the ability of this intervention to cause insulin resistance and hyperinsulinemia.
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PMID:Somatostatin inhibition of fructose-induced hypertension. 256 46

The role of the pattern of insulin secretion on hepatic glucose production (HGP) was evaluated with hyperglycemic and euglycemic clamp studies in six normal young nonobese subjects. In the hyperglycemic studies, glucose levels were raised and maintained at 98 mg/dl above basal for 150 min. Each subject responded with a biphasic pattern of immunoreactive insulin (IRI) release. HGP was completely suppressed by 20 min, coincident with the first-phase insulin release. HGP then rose steadily, surpassing the basal rate by 100 min when IRI had reached the peak levels of the first phase. By 130 min, when IRI had surpassed the peak first-phase levels, HGP began to fall. In the euglycemic studies with a square wave of hyperinsulinemia (approximately 25 microU/ml), HGP was suppressed to approximately 60% of basal and remained at that rate. We next repeated the hyperglycemic studies with somatostatin, glucagon, and insulin infusions. In these studies with a square wave of hyperinsulinemia (approximately 40 microU/ml, the level observed during the first phase IRI of the previous hyperglycemic clamps), HGP was suppressed to approximately 43% of basal rate and remained at that rate. These studies indicate insulin regulation of HGP is not only dependent on insulin level but may be strongly influenced by the pattern, over time, of insulin secretion.
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PMID:Escape of hepatic glucose production during hyperglycemic clamp. 257 38

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