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)

We examined the relative contributions of hormones and nervous system to the total 2-deoxy-D-glucose (2-DG)-induced central nervous system-mediated hyperglycemia. 2-DG was injected into the third cerebral ventricle in the following four groups of rats, and hepatic venous plasma glucose, immunoreactive glucagon, immunoreactive insulin, epinephrine, and norepinephrine were measured: 1) intact rats; 2) intact rats receiving somatostatin with insulin infusion through the femoral vein to inhibit glucagon secretion and maintain the basal insulin level; 3) bilateral adrenalectomized (ADX) rats to prevent epinephrine secretion; and 4) ADX rats receiving somatostatin with insulin infusion. Comparing areas under glucose curves among the intact rats, those receiving somatostatin with insulin infusion, ADX rats, and ADX rats receiving somatostatin with insulin infusion, the area under the glucose curve was intact rats greater than intact rats receiving somatostatin with insulin infusion greater than ADX rats receiving somatostatin with insulin infusion greater than ADX rats. These results suggest that there are three distinct sympathetic nervous system responses to 2-DG-induced central nervous system-mediated hyperglycemia. 2-DG-induced hyperglycemia is not dependent on only one of those three systems, it is dependent on all of them. The relative potency of the factors to 2-DG-induced hyperglycemia increases in the following order: direct neural innervation of liver (including suppressive epinephrine action on insulin secretion), glucagon, and direct epinephrine action on liver.
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PMID:The relative importance of nervous system and hormones to the 2-deoxy-D-glucose-induced hyperglycemia in fed rats. 256 82

Regulatory effects of insulin, somatostatin and cholecystokinin on amino acid transport in the isolated perfused rat pancreas have been studied using a rapid dual isotope dilution technique. Uni-directional L-serine transport (15 s) was quantified relative to an extracellular tracer D-mannitol over a wide range of substrate concentrations. In pancreata perfused with 2.5 mmol/l D-glucose, a weighted nonlinear regression analysis of overall transport indicated an apparent Km = 14.4 +/- 1.6 mmol/l and Vmax = 25.9 +/- 1.4 mumol.min-1.g-1 (n = 6). Although L-serine transport was stimulated during perfusion with 100 microU/ml bovine insulin, endogenous insulin (7-25 ng.min-1.g-1) released during continuous perfusion with either 8.8 mmol/l or 16.8 mmol/l D-glucose had no such effect. Exogenous somatostatin-14 (250 pg/ml) or cholecystokinin octapeptide (CCK-8, 3 x 10(-11) mol/l) appeared to increase only the Km for transport. Only CCK-8 evoked a notable protein output (2.9 +/- 0.3 mg.30 min-1.g-1) and juice flow (68 +/- 10 microliters.30 min-1.g-1, n = 3) from the exocrine pancreas. When pancreata were perfused with bovine insulin (100 microU/ml) and somatostatin-14 (250 pg/ml), the stimulatory action of exogenous insulin on L-serine transport was abolished. If endogenous insulin and somatostatin, released concurrently in response to 16.8 mmol/l D-glucose, were conveyed to the exocrine epithelium via an islet-acinar portal axis, it is conceivable that somatostatin modulates the stimulatory action of insulin on basolateral amino acid transport in the exocrine pancreas.
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PMID:Paradoxical effects of endogenous and exogenous insulin on amino acid transport activity in the isolated rat pancreas: somatostatin-14 inhibits insulin action. 256 59

Neuroglucopenia (NGP), which is a serious potential hazard for all insulin-treated diabetics, stimulates many neural and hormonal responses including increased glucagon secretion and activation of beta-adrenergic receptors of the autonomic nervous system. To determine which of these responses is important in recovery from NGP, we induced NGP in baboons by the intravenous (IV) injection of 2-deoxy-D-glucose with and without beta-adrenergic blockade (propranolol) and somatostatin. Thirty minutes after the induction of NGP the animals recovered, and the mean (+/- SEM) rise in arterial plasma glucose was 6.6 +/- 0.9 mmol/L, in glycerol 0.106 +/- 0.22 mmol/L, and in beta-hydroxybutyrate 0.091 +/- 0.22 mmol/L. Animal recovery and glucose rise were uninfluenced by the infusion of propranolol (mean 30 minute plasma glucose rise of 6.2 +/- 0.8 mmol/L) and somatostatin (6.8 +/- 0.8 mmol/L). However, the combined infusion of somatostatin and propranolol prevented animal recovery and glucose rise (1.0 +/- 0.1 mmol/L). The glycerol and beta-hydroxybutyrate rises were blocked by the propranolol infusion alone. Thus, recovery from NGP and the associated rise in plasma glucose, glycerol, and beta-hydroxybutyrate are prevented by the combination of the suppression of the glucagon and beta-adrenergic response to NGP. Furthermore, if the results of our study are extrapolated to insulin-dependent diabetic patients, most of whom have an impaired glucagon response to insulin-induced hypoglycemia/neuroglucopenia, they would be critically dependent on beta-adrenergic mechanisms for recovery from NGP.
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PMID:Glucose counterregulation during recovery from neuroglucopenia: which mechanism is important? 285 49

We examined the effects of 2-deoxy-D-glucose (2DG)-induced intracellular glucoprivation on GH, insulin, and glucose secretory dynamics in freely moving rats bearing chronic intracerebroventricular and intracardiac venous cannulae. Intravenous administration of 2DG (400 mg/kg) caused a severe suppression in amplitude and duration of spontaneous GH surges; plasma GH levels remained significantly depressed for at least 5 h in the presence of marked hyperglycemia. Plasma insulin levels were unchanged. Central administration of a low dose of 2DG (8 mg/10 microliters) also markedly attenuated GH pulse amplitude and raised plasma glucose levels, but this low dose was without effect when injected peripherally, suggesting a central site of action. To elucidate the mechanism(s) mediating the GH suppression response to insufficient glucose we assessed the involvement of the two hypothalamic GH-regulatory peptides, somatostatin (SRIF) and GH-releasing factor (GRF). Passive immunization of 2DG-treated rats with a specific SRIF antiserum (AS) caused an initial surge of GH release and significant elevation of both trough and mean 6-h plasma GH levels, compared to 2DG-normal sheep serum controls. However, SRIF AS failed to restore the amplitude of GH pulses to normal levels. Administration of three iv boluses of human GRF (10 micrograms), at 90-min intervals, to 2DG-treated rats resulted in GH release which was variable and time dependent; the magnitude of the first response (1 h after 2DG injection) was significantly less than that of the other two. Immunoneutralization with SRIF AS eliminated this difference and significantly enhanced human GRF-induced GH release. These results demonstrate that intracellular glucopenia is a potent inhibitor of pulsatile GH secretion in the rat and that this response is mediated, in part, by an increase in SRIF release. While the present findings are compatible with the hypothesis that glucoprivation induces an acute SRIF release, only a partial role for SRIF is indicated in this response. The longer lasting suppression of GH pulses observed after glucose deprivation may be due to decreased output of GRF from the hypothalamus.
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PMID:Effects of intracellular glucopenia on pulsatile growth hormone secretion: mediation in part by somatostatin. 286 15

Previous work showed beta h-endorphin inhibits glucose-stimulated secretion of insulin by rabbit pancreas slices. This study, also conducted with rabbit pancreas slices, compared the antisecretagogue actions of beta h-endorphin, somatostatin 1-14, and epinephrine versus four secretagogues, glucose, mannose, leucine and potassium chloride. All three antisecretagogues inhibited all four secretagogues. The order of potency of the antisecretagogues varied according to secretagogue. Naloxone antagonized only beta h-endorphin among the three antisecretagogues, and phentolamine antagonized only epinephrine.
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PMID:Effect of beta h-endorphin on release of insulin by rabbit pancreas in response to four secretagogues: comparison with somatostatin and epinephrine. 287 7

Somatostatin was found to diminish control and theophylline-treated tissue sugar accumulation as well as control and also to diminish theophylline mucosal to serosal D-galactose fluxes. When Na+ was removed from the bath solution, sugar transport was unaltered by the presence of somatostatin. The same results were obtained with phlorizin in the medium. These results seem to suggest that the action of somatostatin is restricted to the Na+-dependent sugar carrier located on the brush border of the intestinal epithelium.
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PMID:Effect of somatostatin on D-galactose transport across the small intestine of rats. 288 56

We investigated the effect of several potential carbohydrate secretagogues, amino acids, a ketoacid, and potassium chloride on insulin, glucagon, and somatostatin release from the in vitro perfused Brockmann body of channel catfish (Ictalurus punctatus). Mannose (15 mM) stimulated the release of insulin and somatostatin. Fructose (30 mM) induced only a small and transient release of somatostatin. Galactose (15 mM) was not a secretagogue. Likewise, glyceraldehyde failed to stimulate hormone release. Among the amino acids newly tested, alanine and leucine, and also alpha-ketoisocaproic acid were without effect. A high concentration of potassium (25 mEq/liter) induced a pronounced release of insulin and glucagon and a moderate release of somatostatin. In conclusion, a striking similarity exists between catfish and higher vertebrates in their pancreatic endocrine response to hexoses; on the other hand, the catfish Brockmann body appears to respond only to a few of the common stimuli of pancreatic hormone release in mammals.
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PMID:Secretagogues for pancreatic hormone release in the channel catfish (Ictalurus punctatus). 288 40

The effect of the long-acting somatostatin analogue Sandostatin (SMS 201-995) on intestinal absorption and propagation (mouth-to-caecum transit time; MCTT), on pancreatic secretion and on gall bladder contraction after direct (secretin-pancreozymin test) and indirect stimulation (Lundh meal), and on meal-induced responses of seven gastrointestinal regulatory peptides has been investigated. In a double-blind cross-over study, 9 healthy volunteers completed two 7-day periods with subcutaneous injections of either placebo or 25 micrograms SMS 201-995 twice daily. Mean faecal fat excretion was increased to 19.2 g/day and MCTT was three times longer during the SMS period. After duodenal infusion of a mixture containing D-galactose, D-xylose and triglycerides, SMS 201-995 significantly reduced the serum concentrations of D-galactose but increased serum levels of D-xylose. After 6 days of pretreatment, SMS 201-995 completely suppressed duodenal trypsin, lipase and bilirubin increases in response to endogenous stimulation by a Lundh meal. Concomitantly, cholecystokinin (CCK) release and gall bladder contraction were almost abolished. Compared with placebo, SMS 201-995 significantly diminished pancreatic amylase, trypsin and lipase output after stimulation with CCK, while the secretion of fluid and bicarbonate in response to secretin was unchanged. This inhibition of enzyme response was significantly more marked after a single injection of the analogue than after pretreatment for 7 days and did not reach the level of exocrine pancreatic insufficiency. CCK-induced gall bladder contraction was significantly inhibited by a single dose of 25 micrograms SMS 201-995 but not after 7 days of pretreatment with the somatostatin analogue.
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PMID:Effect of the somatostatin analogue sandostatin (SMS 201-995) on gastrointestinal, pancreatic and biliary function and hormone release in normal men. 288 60

Neonatal mice, under fasting conditions, are susceptible to the development of lesions in the arcuate nucleus (AN) of the hypothalamus, with high doses of monosodium L-glutamate (MSG). Feeding of nutrients (e.g., sugars and L-amino acids) has been shown to have a protective effect against the development of these lesions. The purpose of these studies was to elucidate the mechanism of this protective effect. Histopathologic examination of lesions of the AN demonstrated that feeding of weaning mice before subcutaneous administration of toxic doses of MSG suppressed the development of these lesions, as compared to fasted controls. Similarly, the number of necrotic cells in the AN of neonates administered toxic doses of MSG subcutaneously was reduced when D-glucose and L-arginine were administered orally. Atropine obliterated the protective effect of D-glucose. Pretreatments consisting of gastric inhibitory polypeptide (GIP) + oral D-glucose had a protective effect of higher potency than GIP alone. Pretreatments with insulin, anorexigenic peptide (pyroGlu-His-Gly), cholecystokinin, glucagon, bombesin, and substance P (in decreasing order of effectiveness) demonstrated a protective effect against the AN lesion in neonates, whereas somatostatin and beta-endorphin had no effect. Results suggest that the protective effect of nutrients may in part be due to the stimulation of peptide hormone release during the postabsorptive phase. It is postulated that the effect of entero-pancreatic hormone, especially insulin, is to enhance the tolerance of AN neurons of neonatal mice to the toxic dose of L-glutamate.
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PMID:Mealing and related hormone release suppress hypothalamic lesions of neonatal mice by L-glutamate. 288 96

Four infants (three boys and one girl, ages 12-89 days) with persistent hyperinsulinism secondary to nesidioblastosis (two) or microadenoma of the pancreas (two) were treated with cyclic somatostatin (S) as part of the preoperative management until subtotal pancreatectomy was performed within 12 to 35 days. The individual dose dependent response of glucoregulatory hormones to exogenous was evaluated by means of the "somatostatin sensitivity test" (SST). Thereby S was infused in stepwise increasing doses, as dictated by the prevailing blood glucose levels, until normoglycemia was achieved concomitantly with a dextrose infusion at rates of 5 mg/kg/min. This procedure resulted only in a partial suppression of insulin, C-peptide, glucagon, HGH and cortisol, without recurrence of hypoglycemia. Compared to baseline levels, plasma concentrations of insulin decreased by 61%, of C-peptide by 64% and a rise of glucagon by 23% was observed. The SST which can be performed under routine clinical conditions, is a useful procedure for evaluating the individual S-dose necessary to achieve normoglycemia. The risk of total S-induced suppression of hormones, such as IRI, IRCP, HGH, glucagon and cortisol can be omitted.
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PMID:[Preoperative management of newborn infants with hyperinsulinemic hypoglycemia (2)]. 289 Jul 92


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