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:P01275 (glucagon)
26,492 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Prior studies indicated that acute ethanol feeding induced a decrease in adrenergic sensitivity as measured by the plasma cAMP response to isoproterenol. In this report we show that two hours after acute ethanol ingestion the plasma cyclic AMP levels were increased 8.5 fold 6 minutes after glucagon injection. Saline controls showed a 35 fold increase in plasma cAMP levels after glucagon injection. It is suggested that the decreased response caused by ethanol may be due to a decrease in the sensitivity of glucagon receptors.
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PMID:Effect of alcohol on the plasma cAMP response to glucagon. 22 31

In order to investigate whether somatostatin plays a role in the regulation of thyroid hormone secretion we have compared the effects of a prolonged somatostatin infusion on insulin and glucagon levels, on the one hand, with its effect on T4, T3, rT3 and TSH, on the other. Furthermore, the serum levels of somatomedin A were determined. Saline was infused in control experiments. Cyclic somatostatin was given as an i.v. bolus of 200 micrograms followed by a constant rate infusion of 50 micrograms/h during 24 hours. Somatostatin suppressed basal insulin and glucagon levels as well as insulin responses to meals but did not influence somatomedin A levels. T4 and T3 decreased during the first hour, whether somatostatin was given or not. Thereafter, T4 and T3 remained stable in the control experiments, while they continued to decrease slowly when somatostatin was added. The suppressive effect of somatostatin was significant 11 hours (p less than 0.05) and 24 hours (p less than 0.005) after the onset of the infusion. In contrast, rT3 and TSH were not suppressed by somatostatin. The fact that basal TSH did not decrease, favors the idea that the suppression of T4 and T3 was mainly due to a direct inhibitory effect of somatostatin on the thyroid gland. Our observation that a low dose of somatostatin decreases peripheral T4 and T3 levels supports the idea that somatostatin plays a role in the regulation of thyroid hormone secretion.
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PMID:Effect of 24-hour somatostatin infusion on glucose homeostasis and on the levels of somatomedin A and pancreatic and thyroid hormones in man. 39 78

Somatostatin was infused in various doses into normal subjects and juvenile diabetics for a 24-hour period preceded by a 24-hour control period and followed by another three-hour control period. Saline was infused during the first control period. Meals were served during the two 24-hour periods. Blood samples were taken hourly. Five normal males received a total dose of 4 mg. somatostatin. Four male diabetics received 2 mg., four received 4 mg., and four 6 mg. In the diabetics, somatostatin suppressed plasma growth hormone, glucagon, and glucose throughout the infusion. All parameters rebounded at cessation of infusion. In the normals, somatostatin suppressed plasma growth hormone, glucagon, and insulin but increased plasma glucose. It is concluded that the plasma glucose suppression in the diabetics is mainly due to the suppression of the diabetogenic hormones growth hormone and glucagon. A minor effect of decreased and/or delayed absorption of carbohydrates cannot be excluded in these experiments. The elevated plasma glucose levels in normals must be due to the suppressive effects of somatostatin on insulin secretion.
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PMID:24-hour studies of the effects of somatostatin on the levels of plasma growth hormone, glucagon, and glucose in normal subjects and juvenile diabetics. 64 Feb 35

In order to assess the ability of nicotinic acid to decrease plasma glucose concentration, normal individuals were given continuous four hour infusions of either nicotinic acid (NA), somatostatin (SRIF), NA + SRIF, or 0.9% NaCl (Saline). Plasma non-esterified fatty acid (NEFA) concentration decreased to about one-fourth of the basal value in response to either NA or NA + SRIF, associated with statistically significant decreases in plasma glucose concentration. The ability of NA and NA + SRIF to decrease plasma glucose concentration was seen despite the fact that plasma insulin concentrations also fell significantly during both infusions. Although plasma glucose concentration fell significantly in response to both NA and NA + SRIF, the effect of NA + SRIF was approximately twice as great as that seen with NA alone. The augmented hypoglycaemic effect of NA + SRIF as compared to NA alone was associated with a concomitant fall in plasma glucagon concentration. In contrast, plasma glucose concentration did not change following Saline, and was actually higher than baseline after the infusion of SRIF alone. These results provide evidence that NA can lower plasma glucose concentration in normal volunteers, and suggests that this is mediated by the NA-associated decrease in plasma NEFA concentration.
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PMID:Effect of nicotinic acid on plasma glucose concentration in normal individuals. 135 76

Previous studies have demonstrated a stimulatory effect of interleukin-1 beta (IL-1 beta) on insulin and glucagon release from the perfused rat pancreas, accompanied by selective lysis of 20% of beta-cells as assessed by electronmicroscopy. However, we have not observed an inhibitory action of IL-1 beta on insulin release from the perfused pancreas as shown for isolated islets. To test whether periodical exposure of the endocrine pancreas to circulating IL-1 beta in vivo affects insulin release from the intact perfused pancreas, rats were treated with daily intraperitoneal injections of 4 micrograms IL-1 beta/kg or saline for 5 days. On day 5 the pancreata were isolated 2 h after the last injection and perfused from 0 to 72 min with 11 mmol/l D-glucose and from 72 to 84 min with 20 mmol/l D-glucose. Saline or IL-1 beta was added from 12 to 72 min. In pancreata from animals pre-treated with IL-1 beta glucose-stimulated as well as IL-1 beta potentiated glucose-stimulated insulin release was almost completely abolished. Furthermore, a decline in insulin release was observed at 11 mmol/l D-glucose, in contrast to an increase in insulin release in controls. The total extractable insulin content in pancreata from IL-1 beta pre-treated rats was higher than in pancreata from saline-treated controls. In contrast to the inhibitory effect of in vivo administration of IL-1 beta on beta-cell function glucagon secretion was stimulated. These observations suggest that circulating IL-1 beta is an important modulator of alpha- and beta-cell secretory function in vivo and that IL-1 beta should be considered a contributory pathogenetic factor in the development of insulin-dependent (type 1) diabetes mellitus.
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PMID:Intra-peritoneal administration of interleukin-1 beta induces impaired insulin release from the perfused rat pancreas. 210 5

Carnitine palmitoyltransferase (CPT total) activity and synthesis increase in states where the insulin/glucagon ratio is low, such as starvation and diabetes [Brady & Brady (1987) Biochem. J. 246, 641-646]. However, the effect of glucagon and insulin on CPT synthesis is unknown. The present experiments were designed to determine the effect of glucagon, cAMP [8-(chlorophenylthio) cyclic AMP], and insulin + cAMP on CPT transcription and mRNA amounts over time after injection. The CPT protein that was purified, used to generate antibody, and cloned in these studies was the 68 kDa mitochondrial protein described previously [Brady & Brady (1987) Biochem. J. 246, 641-646; Brady, Feng & Brady (1988) J. Nutr. 118, 1128-1136; Brady & Brady (1989) Diabetes 38, in the press]. Saline-injected control rats exhibited a 2-fold increase in hepatic CPT transcription rate and CPT mRNA over the 5 h experiment from 09:00 to 14:00 h. The effect was most probably due to the fasting state of the rats during the day. Glucagon injection caused an 8-fold increase in transcription rate by 90 min and a 4-fold increase in CPT mRNA by 90-120 min. The cAMP effect had reached a peak by the first time point taken (15 min). Transcription rate was increased 4-fold and CPT mRNA was increased 3-fold at this time. The combination of cAMP + insulin injection did not produce any significant increase in transcription rate or CPT mRNA over the saline-injected controls. CPT mRNA and transcription rate showed a clear dose-response to glucagon injection from 0 to 150 micrograms/100 g body wt. Total CPT activity and immunoreactive CPT were not increased during these experiments. The data indicate that glucagon and insulin interact in control of transcription rate and amount of CPT mRNA, but that increases in CPT immunoreactive protein and activity are temporally delayed. This lag probably relates to the half-life of the CPT protein in vivo, which has been estimated as 2-7 days.
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PMID:Regulation of carnitine palmitoyltransferase in vivo by glucagon and insulin. 254 60

Human growth hormone (hGH, 22 K) has an acute insulinlike effect not observed with the 20 K variant form of hGH that lacks amino acids 32 to 46 (deletion peptide, hGH32-46). The possibility that hGH32-46 increases insulin secretion was examined by infusing hGH32-46 (1.6 nmol/kg/min) or saline in a crossover design study into each of four conscious 16-hour-fasted dogs for three hours (0 to 180 minutes) following a 40-minute control period. At 90 minutes, plasma glucose was raised to and maintained at 170 mg/dL by glucose infusion for three hours (until 270 minutes). After a lag period of 30 minutes hGH32-46 infusion caused glucagon to increase (P less than 0.05) by 67 +/- 20 pg/mL and insulin tended to rise by 8 +/- 3 microU/mL. Saline tended to cause glucagon and insulin to decline slightly (by 17 +/- 8 pg/mL and 6 +/- 2 microU/mL); hGH32-46 increased (P less than 0.05) tracer determined (3H-3-glucose) glucose production by 1.13 +/- 0.66 mg/kg/min while saline had no effect. Neither treatment changed plasma glucose (100 +/- 4 to 105 +/- 3 mg/dL with hGH32-46; 99 +/- 4 to 99 +/- 4 mg/dL with saline). Induction of hyperglycemia (168 +/- 2 mg/dL) caused glucagon concentrations to fall similarly to about 50 pg/mL with and without hGH32-46. Insulin rose in both protocols but to a greater extent (P less than 0.05) with hGH32-46 (+67 +/- 18 v +35 +/- 13 microU/mL at 180 minutes).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The synthetic 32-46 fragment of human growth hormone increases insulin and glucagon levels in the conscious dog. 355 Mar 77

We examined the effect of opiate infusion and of opiate blockage on glucose turnover in the basal state, using isotope dilution techniques in trained conscious dogs (n = 5). After a primed-continuous infusion of 3-3H glucose to steady state specific activity (90 minutes), infusion of one of the following was given: D-met2 pro5 enkephalinamide (DMPE), a potent morphine-like opiate, 0.5 mus g/kg/min; naloxone, an opiate antagonist, 1.25 mg followed by 10 mus g/min; or saline control. Infusion of DMPE led to a fall in glucose from 92 +/- 3 to 87 +/- 3 mg/dL by 60 minutes (P less than 0.05), associated with a rise in glucose utilization (Rd) from 3.0 +/- 0.4 to 3.9 +/- 0.6 mg/kg/min by 30 minutes (P less than 0.05); a transient rise in glucose production (Ra; from 3.2 +/- 0.4 to 4.3 +/- 0.4 mg/kg/min; P less than 0.05). Changes in counterregulatory hormones did not account for these findings; insulin was unchanged during all infusions; glucagon showed small late rises at 75 minutes during both DMPE and naloxone infusion; cortisol rose by 30 and 15 minutes, respectively, of DMPE and naloxone infusion; epinephrine rose transiently after 5 minutes of naloxone but was unchanged during DMPE, and norepinephrine was unchanged throughout. Saline infusion had no effects on any of these indices. We conclude that a potent opiate with morphine-like effects (DMPE) can lower glucose in dogs by enhancing peripheral glucose utilization independently of hormonal changes.
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PMID:Opiate modulation of glucose turnover in dogs. 388 46

Adaptation to fasting results in ketosis, protein conservation, and diminished energy requirements. To determine whether the attenuation of these responses following injury is due to an altered hormonal environment, we infused the catabolic hormones cortisol, glucagon, and adrenaline into seven fasting subjects for 72 h. Saline alone was administered during a comparable control period. Hormone infusion achieved blood levels typical of moderate injury and resulted in hypermetabolism, hyperglycaemia, hyperinsulinaemia, and marked suppression of fasting ketosis. The hypoketonaemia could not be accounted for by decreased precursor availability, accelerated ketone utilization or increased urinary excretion. The altered hormonal environment associated with critical illness attenuates fasting ketosis by limiting hepatic ketogenesis.
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PMID:Role of catabolic hormones in the hypoketonaemia of injury. 394 99

To study the effect of insulin on leucine kinetics, three groups of conscious dogs were studied after an overnight fast (16-18 h). One, saline-infused group (n = 5), served as control. The other two groups were infused with somatostatin and constant replacement amount of glucagon; one group (n = 6) received no insulin replacement, to produce acute insulin deficiency, and the other (n = 6) was constantly replaced with 600 muU/kg per min insulin, to produce twice basal hyperinsulinemia. Hepatic and extrahepatic splanchnic (gut) balance of leucine and alpha-ketoisocaproate (KIC) were calculated using the arteriovenous difference technique. l,4,5,[(3)H]Leucine was used to measure the rates (micromoles per kilogram per minute) of appearance (Ra) and disappearance (Rd), and clearance (Cl) of plasma leucine (milliliters per kilogram per minute). Saline infusion for 7 h resulted in isotopic steady state, where Ra and Rd were equal (3.2+/-0.2 mumol/kg per min). Acute insulin withdrawal of 4-h duration caused the plasma leucine to increase by 40% (P < 0.005). This change was caused by a decrease in the outflow of leucine (Cl) from the plasma, since Ra did not change. The net hepatic release of the amino acid (0.24+/-0.03 mumol/kg per min) did not change significantly; the arterio-deep femoral venous differences of leucine (-10+/-1 mumol/liter) and KIC (-12+/-2 mumol/liter) did not change significantly indicating net release of the amino and ketoacids across the hindlimb. Selective twice basal hyperinsulinemia resulted in a 36% drop in plasma leucine (from control levels of 128+/-8 to 82+/-7 mumol/liter, P < 0.005) within 4 h. This was accompanied by a 15% reduction in Ra and a 56% rise in clearance (P < 0.001, both). Net hepatic leucine production and net release of leucine and KIC across the hindlimb fell markedly. These studies indicate that physiologic changes in circulating insulin levels result in a differential dose-dependent effect on total body leucine metabolism in the intact animal. Acute insulin withdrawal exerts no effect on leucine rate of appearance, while at twice basal levels, insulin inhibited leucine rate of appearance and stimulated its rate of disappearance.
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PMID:Role of insulin in the regulation of leucine kinetics in the conscious dog. 612 47


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