UNIPROT:P01275 - FACTA Search

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

The effects of nutritional state, insulin, and glucagon on lipid mobilization were determined in rainbow trout, Oncorhynchus mykiss. In nutritional state experiments, fish were either fed continuously (except 24 to 36 hr prior to experimentation) with commercial trout chow or fasted for 4 weeks. Lipase activity in liver tissue isolated from fasted fish and cultured for 5 hr was greater than that in tissue isolated from fed fish and cultured. The presence of glucose (5.55 mM) in the incubation medium accentuates lipolytic activity in both liver and adipose tissue. Hormone response was assessed both in vivo and in vitro. Salmon insulin was injected into anesthetized fish (fed continuously except 24 hr prior to injections) in 10 microliters of saline/g body weight; final hormone dose was 100 ng/g body weight. Tissue and plasma were sampled 1 and 3 hr after injection. Insulin resulted in depressed plasma FA concentration and reduced hepatic triacylglycerol lipase activity. In vitro effects of hormones were evaluated by incubating liver and adipose tissue pieces in Hanks-MEM. Glucagon (bovine/porcine) directly stimulated lipid breakdown in both liver and adipose tissue. These actions were manifested by enhanced FA and glycerol released into the culture medium and by elevated triacylglycerol lipase activity. Insulin (bovine) generally appeared antilipolytic as this agent inhibited glucagon-stimulated lipase activity and glucagon-stimulated FA release. Furthermore, insulin (in the presence of glucose) reduced net lipolysis, as indicated by glycerol release, compared to control cultures. These results indicate that nutritional state and glucose are important modulators of lipid mobilization and that glucagon and insulin act directly on lipid storage sites to coordinate lipolysis in rainbow trout.
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PMID:Effects of nutritional state, insulin, and glucagon on lipid mobilization in rainbow trout, Oncorhynchus mykiss. 139 15

Lipoprotein lipase and hepatic lipase are members of the lipase gene family sharing a high degree of homology in their amino acid sequences and genomic organization. We have recently shown that isolated hepatocytes from neonatal rats express both enzyme activities. We show here that both enzymes are, however, differentially regulated. Our main findings are: (i) fasting induced an increase of the lipoprotein lipase activity but a decrease of the hepatic lipase activity in whole liver, being in both cases the vascular (heparin-releasable) compartment responsible for these variations. (ii) In isolated hepatocytes, secretion of lipoprotein lipase activity was increased by adrenaline, dexamethasone and glucagon but was not affected by epidermal growth factor, insulin or triiodothyronine. On the contrary, secretion of hepatic lipase activity was decreased by adrenaline but was not affected by other hormones. (iii) The effect of adrenaline on lipoprotein lipase activity appeared to involve beta-adrenergic receptors, but stimulation of both beta- and alpha 1-receptors seemed to be required for the effect of this hormone on hepatic lipase activity. And (iv), increased secretion of lipoprotein lipase activity was only observed after 3 h of incubation with adrenaline and was blocked by cycloheximide. On the contrary, decreased secretion of hepatic lipase activity was already significant after 90 min of incubation and was not blocked by cycloheximide. We suggest that not only synthesis of both enzymes, but also the posttranslational processing, are under separate control in the neonatal rat liver.
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PMID:Lipoprotein lipase and hepatic lipase activities are differentially regulated in isolated hepatocytes from neonatal rats. 156 12

In a prospective trial 30 patients underwent pancreaticoduodenectomy (Whipple operation) for cancer. They were randomly assigned to receive Somatostatin (SST) (n = 15) or not (n = 15). SST was started at laparotomy with 250 micrograms/h and given over a period of 5 days. A small catheter, which was placed into the duct of the pancreatic remnant, gave access to the pancreatic juice. Volume, amylase, lipase and protein as well as bicarbonate outputs were analyzed. As regards endocrine function, insulin and glucagon plasma levels were measured. The nitrogen balance was calculated. A stimulation test was done on the fifth postoperative day. Six patients (3/3) were assessed as drop-outs. A significant reduction was found for volume, amylase, lipase, protein and bicarbonate with SST, this effect lasting for two days. Lipase however was reduced significantly for 5 days. Pancreatic exocrine function was reduced as well after stimulation, if SST was given. Insulin and glucagon were inhibited with SST, the latter more effectively. We found a positive nitrogen-balance as early as on the second postoperative day in the SST-group, whereas without SST this did not occur before the fourth postoperative day. This findings were significant on the third and fourth postoperative day. The inhibitoric effects of SST, which are demonstrated by our laboratory investigations, conform very well with a more favorable clinical course and a reduction of perioperative morbidity and mortality.
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PMID:[Effect of somatostatin on basal and stimulated exocrine pancreatic secretion after partial duodenopancreatectomy. A clinical experimental study]. 167 16

Pancreatic procolipase, a protein cofactor for lipase, is activated by trypsin, with a simultaneous formation of colipase and a pentapeptide with the sequence Val-Pro-Asp-Pro-Arg (VPDPR). This peptide was found to significantly inhibit pancreatic protein secretion after intraduodenal infusion in pigs (2 mg/kg/h). The inhibition, amounting to 60%, occurred under base-line conditions as well as after stimulation with cholecystokinin (CCK)/secretin (1 U of each peptide/h/kg body wt). In contrast, intravenous infusion of VPDPR (0.2 mg/h/kg) did not affect pancreatic secretion. There was no significant change in the plasma levels of pancreatic polypeptide, insulin, glucagon, or glucose following intraduodenal infusion of VPDPR. It is concluded that the procolipase activation peptide might have an inhibitory function in pancreatic enzyme secretion mediated indirectly through a gut action. Therefore, the lipolytic enzymes of pancreas may also take part in the feed-back regulation of the pancreatic function. We suggest the name enterostatin for this novel regulatory peptide.
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PMID:Pancreatic procolipase activation peptide-enterostatin-inhibits pancreatic enzyme secretion in the pig. 178 Mar 22

Effects of various forms of gastric surgery on gut hormones and pancreatic secretions were examined using canine models. These operative procedures included simple laparotomy (group A; n = 13), truncal vagotomy with pyloroplasty (B; n = 17), selective proximal vagotomy (C; n = 17), proximal gastrectomy with pyloroplasty (D; n = 6), proximal gastrectomy with truncal vagotomy and pyloroplasty (E; n = 7), and distal gastrectomy (F; n = 19). The mean fasting serum gastrin and secretin levels (pg/ml) were 71.0, 82.5 in A, 94.0, 97.7 in B, 62.1, 108.1 in C, 58.2, 123.0 in D, 91.2, 138.6 in E, and 50.9, 74.5 in F, respectively. The mean value of plasma pancreatic glucagon (pg/ml) showed 73.6, 109.9, 106.8, 47.2, 37.8, and 74.5 in each of the six groups. Significant correlations were observed between values of serum lipase and those of serum gastrin as well as between the amount of pancreatic secretions and serum secretin levels. Pancreatic secretions were decreased markedly in group F and moderately in B. Basal tissue blood flow measured by hydrogen clearance method was low in D, E, and F when compared with that in A.
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PMID:[Effects of various forms of gastric surgery on gut hormones and pancreatic secretions]. 194 82

Juvenile coho salmon (Oncorhynchus kisutch) were placed on five dietary regimes: fed 1 week, fasted 1 week, fed 3 weeks, fasted 3 weeks, and fasted 1 week/refed 2 weeks. Plasma levels of glucose, fatty acids, insulin, glucagon, and glucagon-like peptide (GLP) and the activities of key metabolic enzymes were determined. Plasma glucose levels in the fed control groups were 98.4 +/- 3.4 (SEM) and 104.8 +/- 4.7 mg/dl at 1 and 3 weeks, respectively. Plasma glucose in the fasted 1 week group was significantly elevated to 128.8 +/- 9.2 mg/dl. Animals fasted 3 weeks or fasted 1 week/refed 2 weeks displayed plasma glucose levels similar to those of fed animals. Fasted groups possessed significantly less liver glycogen than fed or fasted/refed groups. Plasma fatty acids were elevated only after 3 weeks of fasting (from 0.39 +/- 0.04 microEq/ml to 0.61 +/- 0.06 microEq/ml). This response was reflected in elevated liver lipase activity (from 6.02 +/- 0.44 nmol fatty acid released/hr/mg protein to 14.22 +/- 0.90 units). No significant alterations in liver lipogenesis, assessed by glucose-6-phosphate dehydrogenase activity and by 3H2O incorporation into fatty acids, were observed. Gluconeogenic flux, determined indirectly through kinetic parameters of pyruvate kinase, was enhanced in animals fasted 3 weeks and in animals recovering from a 1-week fast. Plasma insulin levels were highest in fed groups (7.7 +/- 2.3 and 5.9 +/- 1.4 ng/ml at 1 week and 3 weeks, respectively) and were significantly depressed in fasted groups. Plasma levels of glucagon and GLP were also depressed in fasted groups. These results indicate that plasma glucose levels are maintained in salmon during fasting and that fasting-induced hyperlipidemia is mediated by lipolytic enzyme activity. Insulin, glucagon, and GLP may interact with these enzyme systems to coordinate nutritional metabolism of fish.
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PMID:Effects of nutritional state on in vivo lipid and carbohydrate metabolism of coho salmon, Oncorhynchus kisutch. 205 44

We studied the lipase and colipase activity in pancreatic acinar tissue of insulin-deficiency and insulin-resistance obese Zucker rats (fa/fa). After injection of streptozotocin (STX 75 mg/kg) in normal Sprague-Dawley rats, the activity of lipase and colipase in pancreatic acinar tissue was increased by approximately 100%, the increase in colipase occurring 3 days later than that of lipase. At the same time, the amylase activity was decreased by 98%. Injection of alloxan (125 mg/kg) induced a similar change of pancreatic enzyme pattern, with amylase activity strongly reduced by 79% and activity of lipase and colipase increased 20.5 and 18.6%, respectively. Correction of the diabetic state with insulin (1 U/100 g/day) reversed the activity of these enzymes to their prediabetic levels. Administration of insulin (6 U/100 g/day) to normal Sprague-Dawley rats increased the activity of amylase as well as lipase and colipase, whereas injection of glucagon (0.3 mg/100 g/day) decreased the activity of amylase and colipase but had no significant effect on lipase activity. In the obese Zucker rats (fa/fa), the activity of lipase and colipase at onset of obesity (5 weeks of age) was lower than that in their lean littermates (fa/o). Thereafter the activity of the two proteins increased with age, being 40% higher in the fa/fa rat than in the fa/o rat at age 7 weeks. During the same period, amylase activity decreased. These results indicate that pancreatic lipase and colipase activity are increased following either insulin deficiency or insulin resistance in rats by a mechanism related to the changed levels of insulin.
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PMID:Pancreatic lipase and colipase activity increase in pancreatic acinar tissue of diabetic rats. 247 69

Acute deficiency in pancreatic peptides (insulin, somatostatin-25, glucagon, and glucagon-like peptide) was invoked for 9-12 hr in coho, Oncorhynchus kisutch, and chinook, O. tshawytscha, salmon by administration of specific antisera raised against purified salmon hormones. Insulin-deficient fish were hyperglycemic, had diminished glycogen content in the liver (Plisetskaya et al., '88a, elevated liver triacylglycerol lipase activity, and higher concentration of plasma triiodothyronine (T3) compared to a control group of fish injected with nonspecific rabbit serum. After immunoneutralization of somatostatin-25, fish remained normoglycemic, with higher liver glycogen content, decreased lipase activity, and elevated plasma levels of insulin, while the levels of T3 declined. The induced deficiency in glucagon family peptides led to comparatively smaller changes: liver glycogen content was increased after anti-glucagon-like peptide (aGLP) injection and transient hyperglycemia was apparent following anti-glucagon (aGLU) administration. Circulating levels of insulin remained unaffected for at least 9 hr following aGLU and aGLP treatments. The velocity of pyruvate kinase at 2.5 mM phosphoenolpyruvate (V2.5) was depressed, especially after the combined administration of aGLU + aGLP. The effectiveness of immunoneutralization experiments was greatly dependent on the particular stage of the fish life cycle. Antisera against fish pancreatic peptides proved to be a suitable tool in the studies of hormonal regulation of fish metabolism.
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PMID:Metabolic changes in coho and chinook salmon resulting from acute insufficiency in pancreatic hormones. 256 43

The effect of in ovo administration of ovine growth hormone (oGH) on growth and adipose tissue development of chickens was investigated. Unlike mammalian species, exogenous growth hormone has not been previously shown to increase growth of aves. In trial 1, fertilized eggs were injected with vehicle (.03 M NaHCO3 in .15 M NaCl, pH 8.3), 0.25, 2.5, 25 or 250 micrograms oGH on day 11 of embryogenesis. In trial 2, fertile eggs were injected with vehicle or 250 micrograms oGH. In contrast to previous studies in which GH was administered to growing birds, oGH injected in ovo in the present study increased body weights, skeletal growth and feed efficiencies of male broilers. Growth rate was not altered in females. Adipose cellularity data from both trials indicated that in ovo oGH also altered adipose tissue development of broilers. Seven-week-old male and female broilers treated with oGH during embryogenesis exhibited larger adipocytes with correspondingly less cell per gram of tissue. Additionally, adipocytes from oGH-treated broilers exhibited decreased sensitivity to glucagon, cholera toxin or theophylline-induced lipolysis responsiveness to dcAMP in ovo. Cholera toxin plus theophylline improved the lipolytic response of oGH-treated birds; thus, in broilers injected with oGH cAMP-mediated lipase activation may be reduced by a mechanism of increased phosphodiesterase activity. The results of this study indicate that growth and tissue development of chickens have been altered by mammalian GH in ovo.
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PMID:In ovo growth hormone alters growth and adipose tissue development of chickens. 259 45

Glucagon (0.01 microgram) administered through the intracerebroventricular route in anaesthetised mongrel dogs, caused a significant rise in blood glucose and a fall in liver glycogen (P less than 0.01). Concurrently, it increased the liver phosphorylase, glutamic oxaloacetic transaminase, glutamic pyruvic transminase and lipase activities by 30 min. Identical changes were observed in vagotomised animals. In pancreatectomised animals as well as in spinal cord transectomised animals, glucagon did not cause these changes. The study indicated that the hyperglycaemia produced by the centrally administered glucagon, is possibly a result of liver glycogenolysis and gluconeogenesis induced by endogenous glucagon secreted from the pancreas, the stimulus for which is the hypothalamo-pancreatic fibres responding to glucagon sensitive neurones in the hypothalamus.
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PMID:Effect of centrally administered glucagon on liver glycogen & enzymes in anaesthetised dogs. 262 7

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