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)

The present study aimed at evaluating the effect of human beta-endorphin on pancreatic hormone levels and on glucose metabolism in normal subjects. Infusion of 143 nmol/h beta-endorphin in 7 subjects caused a significant rise in plasma glucose concentrations (+ 1.7 +/- 0.3 mmol/l) which was preceded by a significant increase in peripheral plasma glucagon levels (+ 44 +/- 13 ng/l). No changes occurred in the plasma concentrations of insulin and catecholamines (adrenaline and noradrenaline). The influence of beta-endorphin per se on glucose homeostasis was studied in 7 other subjects using the euglycaemic clamp technique in which the endocrine pancreatic function was fixed at its basal level with somatostatin together with replacement of basal insulin and glucagon by the exogenous infusion of these hormones. In this new metabolic conditions, beta-endorphin failed to have significant influences on the various parameters of tracer-estimated glucose metabolism (production, utilization, and clearance) and on the plasma levels of the gluconeogenic precursors (glycerol and alanine). Moreover, the levels of pancreatic and counterregulatory hormones (cortisol and catecholamines) were not different between beta-endorphin and control studies. We conclude that the naturally occurring opioid peptide beta-endorphin produced an hyperglycaemic effect in man which appears to be mediated by glucagon. The opioid seems to have no direct effect on glucose metabolism. These results suggest that the metabolic effects of beta-endorphin in normal man are secondary to its impact on pancreatic hormone secretion and not a consequence of a direct modulation of glucose metabolism.
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PMID:Primary role of glucagon release in the effect of beta-endorphin on glucose homeostasis in normal man. 288 94

The 24-h hormonal and metabolic profiles obtained in five non-insulin-dependent diabetics receiving twice daily s.c. injections of the long-acting somatostatin analogue SMS 201-995 (50 micrograms) have been compared with those obtained following placebo injection. Injections were given 30 min before breakfast and the evening meal. GH secretion was not suppressed by the analogue administered in this manner. Despite suppression of serum insulin levels following breakfast and the evening meal, blood glucose levels were similar during the two study periods with no evidence of worsening in diabetic control. Prolonged suppression of plasma glucagon levels was observed and the nocturnal elevation in serum TSH levels was abolished. Free T4 levels fell significantly following the analogue but total T3 levels were unaffected. Blood alanine levels were elevated throughout the study period following SMS 201-995 but changes in lactate, pyruvate, glycerol and 3-hydroxybutyrate were minor. All five subjects suffered gastrointestinal side-effects. SMS 201-995 (50 micrograms) given twice daily before meals does not cause a deterioration in metabolic control, does not suppress 24-h GH secretion and causes significant side-effects in patients with non-insulin-dependent diabetes mellitus.
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PMID:Effects of somatostatin analogue SMS 201-995 in non-insulin-dependent diabetes. 288 47

Dietary fibre has a beneficial influence on glucose homeostasis, varying for different fibre sources. Fruit, wheat, rye and beet fibre were studied in isoenergetic meals for NIDD patients and healthy volunteers. The effects of extrusion cooking and flaking were also evaluated. The metabolic response was followed by continuous glucose monitoring and by analyses of pancreatic and gastrointestinal hormones as well as plasma lipid concentrations, For NIDD patients the effects, reflected in the area and the shape of the glucose curve, were greater for the more soluble fibre types, but the insulin and C-peptide responses were largely unaffected by dietary fibre. Beet fibre gave increased somatostatin concentrations also in age-matched healthy controls. They showed, however, unchanged plasma glucose responses and markedly decreased insulin and C-peptide levels. These changes were associated with less pronounced postprandial glycerol reduction, but otherwise none of the fibre preparations affected the postprandial lipemia. Extruded bread, based on wholegrain wheat flour, with high availability of in vitro starch, elicited a greater glucose response than wholegrain wheat bread, associated with a modest increase of GIP and insulin and with a stimulated early glucagon secretion. Flaked rye seemed to contain both faster and slower carbohydrates than the corresponding rye bread of similar fibre content. Analyses of the glucose curves suggested that the effect of fibre might be mediated by an effect on glucose absorption and parallel experiments in rat indicated that a delayed rate of gastric emptying might contribute. Further, the liver glycogen content was higher in rats given a slowly absorbed gastric load. A realistic increase in fibre content, given in long-term treatment, improved the metabolic control in NIDD patients, by decreasing the fasting blood glucose and LDL-cholesterol levels, as well as the LDL/HDL ratio. Hypothetically, slower absorption achieved with dietary fibre increases the proportion of glycogen in the liver. This postprandial improvement may cause the long-term trend to normalization of the fasting blood glucose level.
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PMID:Fibre and the diabetic diet. An evaluation of the metabolic response to standardized meals. 288 21

Incubation of epididymal fat tissue slices with somatostatin (SS) led to the inhibition of epinephrine-induced release of free fatty acids (FFA) and glycerol in a dose-dependent manner. The SS administration did not suppress the lipolysis evoked by dibutyryl cAMP. The experimental findings indicate that SS exerts an inhibition of catecholamines-induced lipolysis at the level of adipocytes although the mechanism of action requires further investigations.
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PMID:Somatostatin-induced inhibition of lipolysis: in vitro studies. 289 66

The effects of somatostatin, insulin, insulin-like growth factor I (IGF-I), and insulin-like growth factor II (IGF-II)/MSA on growth hormone (GH) (1 microgram/ml)-induced lipolysis were examined employing chicken adipose tissue in vitro. Basal and GH-stimulated glycerol release were inhibited by somatostatin (1 ng/ml) and by IGF-II/MSA (10 and 100 ng/ml). Insulin and IGF-I (10 and 100 ng/ml) completely inhibited the lipolytic response to GH without affecting basal glycerol release. Insulin and IGF-I were equipotent in inhibiting GH-induced lipolysis while IGF-II is only 16% as potent as insulin.
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PMID:Inhibition of growth hormone-stimulated lipolysis by somatostatin, insulin, and insulin-like growth factors (somatomedins) in vitro. 290 62

SMS 201-995 is an octapeptide analogue of somatostatin. The effect of a single subcutaneous (s.c.) injection of 50 micrograms SMS 201-995 on post-prandial intermediary metabolism was investigated in normal subjects. In spite of a long-lasting post-prandial suppression of insulin secretion, there were no significant changes in the plasma concentration of alanine, glycerol, 3-OH-butyrate or lactate. However, SMS 201-995 impairs carbohydrate tolerance, probably due to inhibition of insulin secretion. Basal and post-prandial plasma concentrations of the gut regulatory peptides pancreatic glucagon, motilin, pancreatic polypeptide, gastric inhibitory polypeptide, enteroglucagon, gastrin and peptide YY were suppressed up to 5 hours after subcutaneous administration of a single dose of SMS 201-995.
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PMID:The effect of a long-acting somatostatin analogue (SMS 201-995) on intermediary metabolism and gut hormones after a test meal in normal subjects. 297 76

The solubilization of somatostatin receptors from guinea-pig pancreas by different non-denaturing detergents was investigated after stabilization of the receptors by prior binding of 125I-[Tyr11]somatostatin or its analogue 125I-[Leu8,DTrp22,Tyr25]somatostatin 28, to pancreatic plasma membranes. The somatostatin-receptor complexes were solubilized in a high yield by Zwittergent 3-14 (3-[tetradecyldimethylammonio]-1-propanesulfonate), a zwitterionic detergent. Other detergents, digitonin, Triton X-100, Chaps (3-[cholamidopropyldimethylammonio]-1-propanesulfonate) and octyl beta-D-glycopyranoside, achieved only partial solubilization. The recovery of receptor complexes was increased by glycerol. In order to characterize solubilized somatostatin-receptor complexes, membranes receptors were covalently labelled using N-5-azido-2-nitrobenzoyloxysuccinimide as cross-linking reagent before solubilization. Gel filtration chromatography analysis resulted in the identification of a major protein component of apparent Mr = 93,000 which interacted with the two radioligands. In addition, a similar component of Mr = 88,000 was characterized after analysis by SDS-PAGE of membrane receptors covalently cross-linked with 125I-[Leu8,DTrp22,Tyr25]somatostatin 28 by different heterobifunctional reagents: N-5-azido-2-nitrobenzoyloxysuccinimide, N-hydroxysuccinimidyl 4-azidobenzoate, N-succinimidyl 6-(4'-azido-2'-nitrophenylamino)hexanoate. Optimal cross-linking results were obtained with N-5-azido-2-nitrobenzoyloxysuccinimide. The solubilized somatostatin-receptor complex was adsorbed to wheat-germ agglutinin-agarose column and eluted by specific sugars. We concluded that the guinea-pig pancreatic somatostatin receptor in the membrane and in the non-denaturing detergent solution behaves as a protein monomer of apparent Mr approximately 85,000-90,000. The somatostatin receptor is a glycoprotein which contains complex-type carbohydrate chains.
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PMID:Solubilization and characterization of guinea-pig pancreatic somatostatin receptors. 303 26

1. Somatostatin analogues, such as SMS 201-995 (sandostatin), have been suggested as treatment for a variety of disease states including acromegaly, secretory gastrointestinal tumours and diabetes mellitus. 2. Somatostatin-14 has actions to prolong gastro-intestinal transit time and inhibit intestinal absorption, and we have therefore studied the effects of SMS 201-995 on these processes. Five male subjects received a test meal having been given either saline or 50 micrograms of SMS 201-995 subcutaneously 30 min before ingestion. 3. SMS 201-995 caused a delay in mouth-to-caecum transit time for lactulose assessed by breath hydrogen analysis (316 +/- 17 vs 192 +/- 14 min, mean +/- SEM, P less than 0.01), a delay (234 vs 120 min, P less than 0.05) in the plasma peak of the non-metabolizable glucose analogue 3-O-methylglucose and conversion of the expected postprandial rise in serum triglycerides (with saline 1.02 +/- 0.20 to 1.51 +/- 0.28 mmol/l, P less than 0.05) to a decrease below basal values (with SMS 201-995 0.97 +/- 0.80 to 0.79 +/- 0.11 mmol/l, P less than 0.05). 4. After SMS 201-995, an enhancement of the increase in blood glucose (8.2 +/- 0.7 vs 4.7 +/- 0.2 mmol/l, P less than 0.01) and inhibition and postponement of the postprandial rise in insulin (27.6 +/- 6.7 vs 9.9 +/- 2.1 m-units/l, P less than 0.05) occurred. Furthermore, a rise in non-esterified fatty acids, glycerol and 3-hydroxybutyrate, compared with the decline in concentrations of these metabolites after saline, was observed.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effects of the somatostatin analogue SMS 201-995 (sandostatin) on mouth-to-caecum transit time and absorption of fat and carbohydrates in normal man. 305 74

Recent studies have established the existence of substrate cycles in humans, but factors regulating the rate of cycling have not been identified. We have therefore investigated the acute response of glucose/glucose-6P-glucose (glucose) and triglyceride/fatty acid (TG/FA) substrate cycling to the infusion of epinephrine (0.03 microgram/kg.min) and glucagon. The response to a high dose glucagon infusion (2 micrograms/kg.min) was tested, as well as the response to a low dose infusion (5 ng/kg.min), with and without the simultaneous infusion of somatostatin (0.1 microgram/kg.min) and insulin (0.1 mU/kg.min). Additionally, the response to chronic prednisone (50 mg/d) was evaluated, both alone and during glucagon (low dose) and epinephrine infusion. Finally, the response to hyperglycemia, with insulin and glucagon held constant by somatostatin infusion and constant replacement of glucagon and insulin at basal rates, was investigated. Glucose cycling was calculated as the difference between the rate of appearance (Ra) of glucose as determined using 2-d1- and 6,6-d2-glucose as tracers. TG/FA cycling was calculated by first determining the Ra glycerol with d5-glycerol and the Ra FFA with [1-13C]palmitate, then subtracting Ra FFA from three times Ra glycerol. The results indicate that glucagon stimulates glucose cycling, and this stimulatory effect is augmented when the insulin response to glucagon infusion is blocked. Glucagon had minimal effect on TG/FA cycling. In contrast, epinephrine stimulated TG/FA cycling, but affected glucose cycling minimally. Prednisone had no direct effect on either glucose or TG/FA cycling, but blunted the stimulatory effect of glucagon on glucose cycling. Hyperglycemia, per se, had no direct effect on glucose or TG/FA cycling. Calculations revealed that stimulation of TG/FA cycling theoretically amplified the sensitivity of control of fatty acid flux, but no such amplification was evident as a result of the stimulation of glucose cycling by glucagon.
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PMID:Hormonal control of substrate cycling in humans. 328 15

The effects on ketogenesis and lipolysis of a norepinephrine (0.04 microgram/kg-min), epinephrine (0.04 microgram/kg-min), or saline infusion were examined in the overnight-fasted, conscious dog. Plasma insulin and glucagon levels were maintained constant by means of a somatostatin infusion (0.8 microgram/kg-min) and intraportal replacement infusions of insulin and glucagon. In saline-infused dogs, plasma epinephrine (62 +/- 8 pg/ml), norepinephrine (92 +/- 29 pg/ml), blood glycerol (87 +/- 10 microM), and plasma nonesterified fatty acid (NEFA) (0.82 +/- 0.17 mM) levels did not change. Total blood ketone body levels tended to rise (62 +/- 10 to 83 +/- 11 microM) by 3 h as did total ketone body production (1.5 +/- 0.4 to 2.2 +/- 0.4 mumol/kg-min) over the same time interval. Norepinephrine infusion to produce plasma levels of 447 +/- 86 pg/ml caused a sustained 50% rise in glycerol levels (66 +/- 17 to 99 +/- 15 mumol/L, P less than 0.05) and 53% rise in nonesterified fatty acids (0.53 +/- 0.07 to 0.81 +/- 0.15 mumol/L, P less than 0.05). Total ketone body levels rose by 43% (51 +/- 8 to 73 +/- 10 mumol/L) and ketone body production rose by a similar proportion (1.5 +/- 0.2 to 2.2 +/- 0.3 mumol/kg-min), changes that did not differ significantly from control animals. A similar increment in plasma epinephrine levels (75 +/- 15 to 475 +/- 60 pg/ml) caused glycerol levels to rise by 82% (105 +/- 23 to 191 +/- 26 mumol/L) in 30 min, but this rise was not sustained and the level fell to 146 +/- 14 mumol/L by 120 min.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Regulation of ketogenesis by epinephrine and norepinephrine in the overnight-fasted, conscious dog. 388 59


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