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 physiological significance of the hyperglucagonemia that occurs in patients with many catabolic conditions is unclear. The effect of hyperglucagonemia on resting metabolic rate (RMR) was studied in six normal subjects. Infusion of somatostatin (SRIH; 500 micrograms/h for 210 min) resulted in a 5-fold decrease in plasma C-peptide and a 2-fold decrease in plasma insulin and glucagon concentrations, but did not change RMR significantly. When glucagon (0.2 micrograms/kg X h), was infused with SRIH (500 micrograms/h for 210 min), the decreases in plasma C-peptide and insulin were similar to that during the infusion of SRIH alone, but plasma glucagon increased from 160 +/- 24 (+/- SEM) to 560 +/- 80 pg/mL (P less than 0.001). There was a significant increase in RMR during the entire period (210 min) of glucagon infusion (P less than 0.01). During the last hour of the glucagon plus SRIH infusion, the RMR was 1.38 +/- 0.10 Cal/min, which was 15% higher than the preinfusion RMR (1.19 +/- 0.10 Cal/min; P less than 0.01) and 14% higher than the RMR during the same period when SRIH alone was infused (1.21 +/- 0.11 Cal/min; P less than 0.01). When SRIH and glucagon were infused, protein oxidation (calculated from urinary nitrogen loss) was 52 +/- 5 mg/min, 29% higher than when SRIH alone was infused (40 +/- 5 mg/min; P less than 0.05). These results indicate that hyperglucagonemia during insulin deficiency results in an increase in energy expenditure, which may contribute to the catabolic state in many conditions.
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PMID:Hyperglucagonemia increases resting metabolic rate in man during insulin deficiency. 288 43

Holstein calves were used to investigate the effects of immunization procedures against somatostatin (SRIF) on growth and concentrations of somatotropin in plasma. In Trial 1, eight heifers 37 weeks of age were inoculated with cyclic-SRIF conjugated to human alpha-globulin. Final body weight, average daily gain, and measurements of body size were not significantly different between control and SRIF-immunized calves. Apparent total tract nutrient digestibilities and efficiency of feed utilization also were not significantly different between treatments. Plasma concentrations of somatotropin were increased and plasma concentrations of urea nitrogen were decreased in calves immunized against SRIF compared to controls, but these mean differences were not significant. In Trial 2, eleven bull calves seven weeks of age were inoculated with cyclic-SRIF conjugated to keyhole limpet hemocyanin. Calves immunized against SRIF had larger average daily gains (P less than .06) than did control calves. Body size, efficiency of feed utilization, and concentrations of somatotropin in plasma were not significantly different for SRIF immunized calves and control calves. Urea nitrogen in plasma was lower (P less than .04) for calves immunized against somatostatin than for control calves. Data indicate that Holstein calves can produce auto-antibodies against SRIF; however, additional research will be required before such immunization techniques can be effectively used to improve weight gains in cattle.
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PMID:The effect of immunization against somatostatin on growth and concentration of somatotropin in plasma of Holstein calves. 290 84

Hyperglucagonemia coexists with insulin deficiency or insulin resistance in many conditions where urinary nitrogen excretion is increased, but the precise role of glucagon in these conditions is controversial. The purpose of this study was to evaluate the effect of hyperglucagonemia on protein metabolism in insulin-deficient subjects. We used the stable isotope of an essential amino acid (L-[1-13C]leucine) as a tracer of in vivo protein metabolism. A combined deficiency of insulin and glucagon was induced by intravenous infusion of somatostatin. Hyperglucagonemia and hypoinsulinemia were induced by infusions of somatostatin and glucagon. When somatostatin alone was infused leucine flux increased, indicating a 6-17% increase in proteolysis. When somatostatin and glucagon were infused, leucine flux increased, indicating a 12-32% increase in proteolysis. The increase in leucine flux during the infusion of somatostatin and glucagon was higher than the increase during infusion of somatostatin alone. Somatostatin alone did not change leucine oxidation, whereas the somatostatin plus glucagon increased leucine oxidation 100%. We conclude that hyperglucagonemia accelerates proteolysis and leucine oxidation in insulin-deficient humans.
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PMID:Hyperglucagonemia during insulin deficiency accelerates protein catabolism. 330 68

The survival and cellular and connective organization of intracephalic transplants of developing, freeze-stored rat hippocampal tissue were examined. Blocks of tissue containing the hippocampus and fascia dentata were obtained from late embryonic (E16-E22) and early postnatal rats (P0-P4) and immersed in a tissue culture medium with 10% of the cryoprotective agent DMSO, frozen at a cooling rate of approximately 1 degree C/minute, and stored for 1-226 days in liquid nitrogen. After quick thawing and washing out of the DMSO the tissue blocks were transplanted to the brain of adult rats. From 2 weeks to 3 months later the recipient brains were processed histologically. The cellular and connective organization of the transplants and their interaction with the host brains were analyzed after thionin cell staining, Timm's staining for hippocampal and dentate afferents, immunohistochemical staining for enkephalin-, CCK-, and somatostatin-reactive neurons and afferents, AChE staining for cholinergic afferents, and silver stains for fiber architectonics and tracing of connections by anterograde axonal degeneration. Freeze-storage narrowed the range of donor ages with good transplant survival. The best surviving hippocampal and dentate transplants thus came from 17-21-day-old embryos. There was no correlation between the length of storage and survival. Structurally the transplants of stored tissue were more frequently fragmented than the transplants of fresh tissue when located outside the brain parenchyma in the brain ventricles. This was in accordance with the results of a previous study of grafts of freeze-stored and fresh hippocampal tissue placed in the anterior eye chamber. Despite the decrease in survival and the tendency for fragmentation many well-structured and organotypically organized hippocampal and dentate transplants were recovered corresponding to the donor ages E19-E21. In addition to the main cell types (granule cells and pyramidal cells) the freeze-stored transplants also contained peptidergic nerve cells reacting for CCK, somatostatin, and enkephalin. The organization of the intrinsic nerve connections and the exchange of connections with the host brain were similar for transplants of stored and fresh tissue. Besides the consistent innervation of the hippocampal and dentate transplants by host cholinergic afferents monitored by AChE staining, several appropriately located dentate transplants thus sent mossy fibers to the host CA3. Others received host perforant path projections. A CA3-associated transplant projection to the denervated perforant path zones in the host fascia dentata was also observed.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Intracephalic transplants of freeze-stored rat hippocampal tissue. 378 12

The effects of glucagon deficiency and excess on plasma concentrations of 21 amino acids were studied in six normal human subjects for 8 h. During glucagon deficiency, produced by intravenous infusion of somatostatin (0.5 mg/h) and insulin (5 mU/kg per h), amino acid concentration (sum of 21 amino acids) rose from 2,607 +/- 76 to 2,922 +/- 133 microM after 4 h (P less than 0.025). The largest increases occurred in lysine (+26%), glycine (+24%), alanine (+23%), and arginine (+23%) concentrations. During glucagon excess produced by intravenous infusion of somatostatin (0.5 mg/h), insulin (5 mU/kg per h), and glucagon (60 ng/kg per h), amino acid concentration decreased from 2,774 +/- 166 to 2,388 +/- 102 microM at 8 h (P less than 0.01). The largest decreases occurred in citrulline (-37%), proline (-32%), ornithine (-30%), tyrosine (-23%), glycine (-20%), threonine (-21%), and alanine (18%) concentrations. Urinary urea nitrogen and total nitrogen excretions were lower during glucagon deficiency than during glucagon excess (3.1 +/- 0.2 vs. 6.3 +/- 2.3 g/8 h, P less than 0.05 and 4.8 +/- 1.0 vs 7.0 +/- 2.6 g/8 h, respectively, P less than 0.05). Biostator-controlled euglycemic glucagon deficiency was produced in four normal subjects for 4 h to eliminate possible effects of changes in glucose concentration on amino acids. Amino acid concentration (sum of 18 amino acids) increases occurred in arginine (+42%), alanine (+28%), glutamine (+25%), and glycine (+16%) concentrations. The data show that small changes (-66 pg/ml and +50 pg/ml) in basal glucagon concentrations cause plasma amino acid concentrations to change in opposite directions. The finding that urinary excretion of nitrogen and urea nitrogen was greater during glucagon excess than during glucagon deficiency suggested alterations in the rate of gluconeogenesis from amino acids as one mechanism by which glucagon controls blood amino acid levels.
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PMID:Effects of glucagon on plasma amino acids. 614 2

Fifteen patients with chronic renal failure (serum creatinine level greater than 5 mg/dl) of long duration (more than 2 years) requiring hemodialysis were studied. Blood samples before and after 4 hours of hemodialysis were assayed for creatinine, blood urea nitrogen, potassium, calcium, glucose, insulin, gastrin, gastric inhibitory polypeptide, vasoactive intestinal polypeptide, pancreatic polypeptide, somatostatin, motilin, and neurotensin levels. Before dialysis, serum gastrin was minimally increased whereas gastric inhibitory polypeptide and pancreatic polypeptide were grossly increased compared with normal fasting values. Hemodialysis produced no changes in serum gastric inhibitory polypeptide, vasoactive intestinal polypeptide, pancreatic polypeptide, somatostatin, motilin, and neurotensin. Slight increases in serum insulin and gastrin levels may have occurred secondary to a dialysis-induced increase in the serum calcium level. The kidneys appear to be a major site of inactivation of insulin, gastrin, gastric inhibitory polypeptide, and pancreatic polypeptide. The gastrin level, although elevated in renal failure patients, may be suppressed by very high circulating levels of gastric inhibitory polypeptide.
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PMID:Chronic renal failure: effect of hemodialysis on gastrointestinal hormones. 615 Jun 57

Three patients with external fistulas from the gastrointestinal tract were treated with somatostatin, a peptide which inhibits pancreatic, gastric and intestinal secretion. Although somatostatin reduced fistula output in two patients and possibly prevented haemorrhage in one, it did not induce fistula closure in any; moreover on withdrawal of somatostatin one patient developed life threatening gastrointestinal haemorrhage and a transient fistula hypersecretion occurred in the others. This experience of somatostatin treatment was less favourable than that previously reported in other small series. Positive nitrogen balance was probably not maintained during treatment in the three patients reported here and in one patient in a previous study in whom somatostatin was ineffective; the peptide may only promote fistula closure in adequately nourished patients.
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PMID:Somatostatin treatment of gastrointestinal fistulas: evidence for a rebound effect on withdrawal. 615 92

The effect of ketone bodies on glucose production (Ra) and utilization (Rd) was investigated in the 24-h starved, conscious unrestrained miniature pig. Infusing Na-DL-beta-OH-butyrate (Na-DL-beta-OHB) and thus shifting the blood pH from 7.40 to 7.56 resulted in a decrease of Ra by 52% and of Rd by 45%, as determined by the isotope dilution technique. Simultaneously, the concentrations of arterial insulin and glucagon were slightly enhanced, whereas the plasma levels of glucose, lactate, pyruvate, alanine, alpha-amino-N, and free fatty acids (FFA) were all reduced. Infusion of Na-bicarbonate, which yielded a similar shift in blood pH, did not mimick these effects. Infusion of equimolar amounts of the ketoacid, yielding a blood pH of 7.35, induced similar metabolic alterations with respect to plasma glucose, Ra, Rd, and insulin; however, plasma alanine and alpha-amino-N increased. Infusing different amounts of Na-DL-beta-OHB resulting in plasma steady state levels of ketones from 0.25 to 1.5 mM had similar effects on arterial insulin and glucose kinetics. No dose dependency was observed. Prevention of the Na-DL-beta-OHB-induced hypoalaninemia by simultaneous infusion of alanine (1 mumol/kg X min) did not prevent hypoglycemia. Infusion of Na-DL-beta-OHB plus insulin (0.4 mU/kg X min) showed no additive effect on the inhibition of Ra. Ketones did not inhibit the insulin-stimulated metabolic clearance rate (MCR) for glucose. Infusion of somatostatin (0.2 micrograms/kg X min) initially decreased plasma glucose, Ra, and Rd, which was followed by an increase in plasma glucose and Ra; however, on infusion of somatostatin plus Na-DL-beta-OHB, hypoglycemia and the reduced Ra were maintained. In the anaesthetized 24-h starved miniature pig, Na-DL-beta-OHB infusion decreased the hepatic exchange for glucose, lactate, and FFA, whereas the exchange for glycerol, alanine, and alpha-amino-N as well as liver perfusion rate were unaffected. Simultaneously, portal glucagon and insulin as well as hepatic insulin extraction rate were elevated. Leg exchange for glucose, lactate, glycerol, alanine, alpha-amino-N, and FFA were decreased, while ketone body utilization increased. Repeated infusion of Na-DL-beta-OHB at the fourth, fifth, and sixth day of starvation in the conscious, unrestrained mini-pig resulted in a significant drop in urinary nitrogen (N)-excretion. However, this effect was mimicked by infusing equimolar amounts of Na-bicarbonate. In contrast, when only the ketoacid was given, urinary N-excretion accelerated. To summarize: (a) Ketone bodies decrease endogenous glucose production via an insulin-dependent mechanism; in addition, ketones probably exert a direct inhibitory action on gluconeogenesis. The ketone body-induced hypoalaninemia does not contribute to this effect. (b) The counterregulatory response to hypoglycemia is reduced by ketones. (c) As a consequence of the decrease in R(a), glucose utilization declines during ketone infusion. (d)The insulin-stimulated MCR for glucose is not affected by ketones. (e) Ketones in their physiological moiety do not show a protein-sparing effect.
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PMID:Effect of ketone bodies on glucose production and utilization in the miniature pig. 637 44

Renal responses to intravenous DL-alanine (ala) and glucagon (GLN) infusions were compared in conscious dogs. Doses of GLN (0.1 microgram/min) that did not increase plasma glucose (PG) concentrations, a physiological effect of GLN, stimulated glomerular filtration rate (G.F.R.). Higher GLN infusion rates (1.0 and 10.0 micrograms/min) stimulated G.F.R., renal plasma flow (R.P.F.), PG, and potassium and urea clearances. Ala infusions (1.3 mmol/min) had similar effects if the dogs had been pre-conditioned by feeding of corn starch, but not if they had been fed a normal diet. This level of ala infusion increased plasma alpha amino nitrogen to levels equivalent to plasma ala levels reported to stimulate GLN secretion. The reason for the lack of responsiveness to ala infusion when the normal diet was fed was not clear. When somatostatin (3.8 micrograms/min), an inhibitor of GLN secretion, and ala were infused simultaneously, G.F.R. was lower than when ala alone was infused. The data suggested that the ala-induced renal effects were mediated by GLN.
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PMID:Glucagon and alanine-induced increases of the canine renal glomerular filtration rate. 661 30

To evaluate the response to a mixed meal we studied oral temperature, metabolite, and hormonal responses to a common American breakfast containing 11 kcal/kg body weight (carbohydrate 43%, fat 42%, and protein 15%) in 12 normal volunteers (6 males and 6 females). There was a significant rise in oral temperature during the postcibal period. This change in oral temperature did not depend upon food consumption in males but was meal-dependent in females. Food ingestion caused increases in the peripheral circulating concentrations of glucose, lactate, pyruvate, and amino acids and reciprocal decreases in the concentrations of free fatty acids, glycerol, and urea nitrogen. Acetoacetate and beta-hydroxybutyrate decreased during the postcibal period but the changes were not statistically significant. Although peripheral venous serum insulin and plasma glucagon concentrations were indistinguishable between the sexes, males had higher concentrations of plasma triglycerides, plasma amino acids, and serum urea nitrogen. Peripheral venous plasma somatostatin and secretin remained unchanged, but pancreatic polypeptide hormone showed a large biphasic response to the meal. After breakfast the blood glucose concentration tended to be greater in males than in females and this difference was significant at 60 and 120 min postcibal. Furthermore, every female had a 120 min postcibal glucose concentration that was lower than her basal fasting glucose concentration. This suggests that postcibal glucose concentrations should be related to gender in making the diagnosis of carbohydrate intolerance or reactive hypoglycemia.
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PMID:Substrate, hormone, and temperature responses in males and females to a common breakfast. 699 56


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