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)

Autophagic degradation of cytoplasm (including protein, RNA etc.) is a non-selective bulk process, as indicated by ultrastructural evidence and by the similarity in autophagic sequestration rates of various cytosolic enzymes with different half-lives. The initial autophagic sequestration step, performed by a poorly-characterized organelle called a phagophore, is subject to feedback inhibition by purines and amino acids, the effect of the latter being potentiated by insulin and antagonized by glucagon. Epinephrine and other adrenergic agonists inhibit autophagic sequestration through a prazosin-sensitive alpha 1-adrenergic mechanism. The sequestration is also inhibited by cAMP and by protein phosphorylation as indicated by the effects of cyclic nucleotide analogues, phosphodiesterase inhibitors and okadaic acid. Asparagine specifically inhibits autophagic-lysosomal fusion without having any significant effects on autophagic sequestration, on intralysosomal degradation or on the endocytic pathway. Autophaged material that accumulates in prelysosomal vacuoles in the presence of asparagine is accessible to endocytosed enzymes, revealing the existence of an amphifunctional organelle, the amphisome. Evidence from several cell types suggests that endocytosis may be coupled to autophagy to a variable extent, and that the amphisome may play a central role as a collecting station for material destined for lysosomal degradation. Protein degradation can also take place in a 'salvage compartment' closely associated with the endoplasmic reticulum (ER). In this compartment unassembled protein chains are degraded by uncharacterized proteinases, while resident proteins return to the ER and assembled secretory and membrane proteins proceed through the Golgi apparatus. In the trans-Golgi network some proteins are proteolytically processed by Ca(2+)-dependent proteinases; furthermore, this compartment sorts proteins to lysosomes, various membrane domains, endosomes or secretory vesicles/granules. Processing of both endogenous and exogenous proteins can occur in endosomes, which may play a particularly important role in antigen processing and presentation. Proteins in endosomes or secretory compartments can either be exocytosed, or channeled to lysosomes for degradation. The switch mechanisms which decide between these options are subject to bioregulation by external agents (hormones and growth factors), and may play an important role in the control of protein uptake and secretion.
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PMID:Autophagy and other vacuolar protein degradation mechanisms. 174 Jan 88

We were interested in studying whether impaired hypoglycemic awareness after intensified insulin treatment with insulin pumps is associated with impaired glucose counterregulation. Glucose counterregulatory hormones were measured in 7 type I diabetic patients with altered symptoms after 6 months of continuous subcutaneous insulin infusion (CSII) (group 1) and in 9 patients with unchanged symptoms of hypoglycemia under CSII (group 2). The groups did not differ in diabetic control, duration of diabetes, or prevalence of neuropathy. Counterregulatory hormone response to an insulin-induced episode of hypoglycemia was measured before (first test) and after 6 months (second test) of CSII. Glucose nadirs and glucose recovery were similar in both groups and both tests. The mean plasma glucagon values demonstrate a lack of glucagon response in both groups and both tests. Growth hormone and cortisol increased in both groups and both tests without any difference between the groups or first and second tests. Epinephrine response was similar in both tests of group 2 (first test: 50 +/- 5 to 416 +/- 73; second test; 45 +/- 5 to 456 pg/ml), while in group 1 the response was not increased significantly in the second test [first test: 32 +/- 6 to 346 +/- 63; second test: 44 +/- 7 to 575 +/- 91 pg/ml; areas under curve (AUC) 11,977 and 16,345 pg x ml-1 x 90 min-1 (p = 0.36)].(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Glucose counterregulation in type 1 diabetic patients with decreased symptoms of hypoglycemia after insulin pump treatment. 176 86

To determine whether CNS regulatory pathways are organized so that differential sympathetic outflow patterns occur in response to stress, we injected various doses of neostigmine or bombesin into the third cerebral ventricle of fed rats, and then measured the hepatic venous plasma concentrations of glucose, glucagon, insulin, and epinephrine. The following four groups of rats were studied. Group 1 was intact rats. Group 2 comprised intact rats receiving the constant infusion of a) somatostatin to inhibit the endogenous secretion of insulin and glucagon, and b) insulin to maintain the plasma insulin concentration at basal levels. The infusion was started from -30 minutes and given via a catheter in the femoral vein. Group 3 consisted of rats that underwent bilateral adrenal medullectomy (ADMX) one week before the experiment. Group 4 was ADMX rats administered a constant infusion of somatostain with insulin through a femoral vein, as above. The administration of 1 x 10(-9) mol neostigmine caused hepatic venous hyperglycemia mediated by three distinct pathways: 1) direct innervation of the liver, 2) a direct action of epinephrine on the liver, and 3) the action of glucagon on the liver. We estimated the relative contribution of these three factors to be about 47, 32, and 21%, respectively. Relative contributions of three factors of the doses of 5 x 10(-9) and 5 x 10(-8) mol neostigmine demonstrated an effect similar to that of 1 x 10(-9) mol neostigmine. Epinephrine was shown to be the only agent involved in the hyperglycemic response to intraventricular bombesin at doses of 1 x 10(-10), 1 x 10(-9), and 1 x 10(-8) mol.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Relative contribution of nervous system and hormones to CNS-mediated hyperglycemia is determined by the neurochemical specificity in the brain. 180 63

This study provides the first experimental evidence of the short-term control of fructose 2,6-bisphosphate (Fru(2,6)P2) levels in adult human hepatocytes. (1) In hepatocytes whose metabolic status resembles the fed state (glycogen-rich), exposure to glucagon (10(-8) M) caused a drastic decrease in the levels of this effector and a significant fall in lactate production rate. Adrenaline, isoprenaline (a beta-adrenergic agonist) and lactate exerted a similar action decreasing Fru(2,6)P2 concentration. (2) In glucagon pre-treated, glycogen- and Fru(2,6)P2-depleted cells (a situation that mimics the fasted state), Fru(2,6)P2 re-synthesis was strictly dependent on glucose availability. (3) Insulin did not seem to exert a direct action on the control of Fru(2,6)P2 in human hepatocytes. The hormone--which failed to enhance Fru(2,6)P2 in glucose-starved cells--did not further increase Fru(2,6)P2 content nor its time-course evolution as compared to hepatocytes incubated with glucose alone. (4) Lactate caused a significant delay in the glucose-induced increase in Fru(2,6)P2 content that could not be prevented by insulin. (5) Data indicate that in human hepatocytes glucose is a more powerful modulator of Fru(2,6)P2 than insulin, and that variations in blood lactate concentration may also play a role in the control of hepatic Fru(2,6)P2 levels during the fasted-to-fed transition in humans.
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PMID:Glucose: a more powerful modulator of fructose 2,6-bisphosphate levels than insulin in human hepatocytes. 189 1

Oxidation of [2,3-14C]succinate carbons in the mitochondrial Krebs cycle was used as a probe to investigate the effects of insulin, epinephrine, glucagon, and 2,4-dinitrophenol (2,4-DNP) on isolated rat hepatocytes. Epinephrine, glucagon, and 2,4-DNP had a far greater stimulatory effect on 14CO2 formation from [2,3-14C]succinate than insulin. Unlike insulin, epinephrine and glucagon had no significant effect on the anabolic utilization of succinate carbons for protein synthesis. Our results suggest that although epinephrine, glucagon, and 2,4-DNP enhance the movement of tracer carbons through the Krebs cycle, only insulin is capable of enhancing amphibolite utilization for protein synthesis.
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PMID:Differential effects of insulin, epinephrine, and glucagon on rat hepatocyte mitochondrial activity. 191 Mar

To examine the glucoregulatory responses to stress and their impact on diabetes, we used the following models of stress: A) Hypoglycemia; B) Epinephrine infusion; C) intracerebroventricular (ICV) injection of carbachol, an analog of acetylcholine. A) Hypoglycemia induces release of all counterregulatory hormones. During acute hypoglycemia, glucose production increases initially mainly due to glucagon release but eventually also due to a very large increment in catecholamines. In newborn dogs, neither epinephrine nor glucagon respond to a decrease in plasma glucose. This lack of a safeguard against hypoglycemia may indicate that the brain in pups is less dependent on a normal supply of glucose as a fuel, than in adult dogs. Counterregulation is enhanced when the effects of endogenous opiates are blocked by naloxone, indicating that endogenous opiates play a regulatory role during hypoglycemia. However, beta-endorphins which can be released with epinephrine during various stress situations, potentiate the peripheral effect of epinephrine. Glucoregulatory responses, even to slight changes in plasma glucose, are greatly enhanced during glucocorticoid treatment. This apparently reflects the greater sensitivity of the liver to glucagon. In diabetic dogs, similar to human diabetics, the glucagon response is abolished and the response of the catecholamines is partially decreased. On the basis of histological studies, we proposed that the deficient glucagon response in diabetes could be related to an increase in the somatostatin-glucagon ratio in the diabetic pancreas. This ratio is further augmented when normoglycemia is maintained with insulin. In response to a decrease in plasma glucose, there is a biphasic increment in glucose production in normal dogs, which is missing in diabetes. When normoglycemia is restored in diabetic dogs with phlorizin treatment, the second but not the first increment in glucose production is restored. We postulated, therefore, that the toxic effect of hyperglycemia, in addition to the lack of glucagon response, is the main reason why in diabetes, glucose production cannot respond promptly to a decrease in plasma glucose. The low rate of metabolic clearance of glucose seen in diabetes in the post-absorptive state, also reflects, at least in part, the toxic effect of glucose, because with acute normalization of glucose with phlorizin, metabolic glucose clearance substantially improves. Hyperglycemia is the main reason for the decreased number of glucose transporters in diabetic muscle. B) Epinephrine infusion in normal dogs mimics some effects of stress, in that it increases glucose production, inhibits metabolic glucose clearance and increases lipolysis. These metabolic effects of epinephrine are independent of glucagon release.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Effect of stress on glucoregulation in physiology and diabetes. 192 81

The effect of fasting on hepatic endothelial lipase activity in the liver of adult rats was investigated. We found that, both in male and female rats, fasting produced a progressive decrease of the hepatic endothelial lipase activity. Upon refeeding, the activity returned to control values in 48 h. In isolated livers from fed male rats, a sharp peak of hepatic endothelial lipase activity appeared in the perfusate upon heparin addition. It accounted for 75% of the total activity (heparin-released + residual) of the tissue. Fasting (24 h) decreased the heparin-releasable activity, and this effect was responsible for most of the decrease found in whole tissue. We suggest that the effect might be due to a decreased synthesis and/or secretion of the enzyme by hepatocytes, since isolated hepatocytes from fasted rats, incubated at 37 C, released 65% less activity to the incubation medium than hepatocytes from fed rats. Adrenaline, but not insulin, glucagon, dexamethasone, epidermal growth factor, or T3, decreased the amount of hepatic endothelial lipase activity released by hepatocytes isolated from fed rats. The effect of adrenaline appears to be mediated by alpha 1-receptors since phenylephrine but not isoprenaline reproduced, and prazosin but not propranolol blocked, the effect of the catecholamine. In the presence of cycloheximide, adrenaline also decreased the amount of activity released. We suggest that, in our incubation conditions (up to 3 h), the hormone affects the posttranslational processing of the enzyme. In vivo administration of prazosin blocked the effect of both noradrenaline and fasting on hepatic endothelial lipase activity in whole liver. Those results suggest that catecholamines are involved in the decreased hepatic endothelial lipase activity found in the liver of fasted rats, and points out the role of these hormones in the acute modulation of an enzyme involved in reverse cholesterol transport.
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PMID:Involvement of catecholamines in the effect of fasting on hepatic endothelial lipase activity in the rat. 193 90

Norepinephrine (NOR) is a potent activator of carbohydrate metabolism in isolated hepatocytes from copper rockfish (Sebastes caurinus), increasing rates of glycogenolysis fourfold with an EC50 of 6.3 nM. Nanomolar concentrations of NOR also enhance gluconeogenesis. Epinephrine (EPI) activates both pathways to a smaller extent; the corresponding EC50 for glycogenolysis is 320 nM. There is no significant difference between the magnitude of glucose production in response to comparable doses of NOR, bovine glucagon, and catfish glucagon-like peptide. Experiments with an adrenergic agonist (isoproterenol) and antagonists (propranolol, prazosin, atenolol) indicate that NOR effects are mediated through beta-adrenoceptors. Catecholamine-activated glycogenolysis measured at 100 nM EPI or NOR is poorly correlated with a 30-50% rise in intracellular cAMP. Glucose production following catecholamine administration is not linear: 50% of the hourly glucose output is released within the first 17 min (NOR) and 5 min (EPI), respectively. During hepatocyte incubation (60 min at 15 degrees), added NOR and EPI (100 nM) were not degraded to any significant extent. In the absence of added hormones, rockfish hepatocytes produce 7.41 +/- 0.89 mumol glucose x g-1 packed cells x hr-1 at 15 degrees, with gluconeogenesis accounting for 35.0% of the total production. The rate of glucose output, which is linear for at least 60 min, is not correlated with the initial hepatocyte glycogen level.
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PMID:Norepinephrine: a potent activator of glycogenolysis and gluconeogenesis in rockfish hepatocytes. 197 May 44

Epinephrine produces smaller incremental increases in plasma glucose concentration and rate of glucose appearance (Ra) in septic rats compared with nonseptic animals. In the present study, we investigated the role of insulin in the diminished response of septic rats to epinephrine-induced increases in glucose turnover. Glucose kinetics were assessed by the infusion of [6-3H]-glucose in conscious catheterized rats made septic by subcutaneous injections of live Escherichia coli. Epinephrine was infused at 1 micrograms/min/kg for 2 hours in the presence and absence of somatostatin and mannoheptulose (SRIF + MH). In comparison to nonseptic control animals, epinephrine-induced increases in plasma glucose concentration and glucose Ra were blunted by more than 50% in the septic rats. Infusion of SRIF + MH with epinephrine restored the blunted response to normal. During the infusion of epinephrine alone, the plasma insulin concentration in the septic rats was 2.8-fold higher than the nonseptic controls. SRIF + MH lowered the plasma insulin concentrations in both the nonseptic and septic rats to less than 10 microU/mL. SRIF + MH reversed the sepsis-induced hyperglucagonemia, but did not prevent a slight increase in glucagon levels during the epinephrine infusion in the nonseptic rats. In a second study, septic rats infused with SRIF + MH and replacement insulin showed a smaller increase in glucose concentration and glucose production in response to epinephrine than did septic animals administered SRIF + MH and no insulin. These results indicate that insulin plays an important role in the diminished response of septic rats to epinephrine.
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PMID:Role of insulin in the blunted glucose metabolic response of septic rats to epinephrine. 197 24

The counterregulatory hormones glucagon, adrenaline, cortisol and growth hormone are released during hypoglycaemia, and under other stress conditions. These hormones have insulin-antagonistic effects both in the liver and in the peripheral tissues. The insulin-antagonistic effects of glucagon and adrenaline are of rapid onset, whereas those of cortisol and growth hormone are only observed after a lag period of several hours. Glucagon is the most important hormone for acute glucose counterregulation. When the release of this hormone is deficient, as in patients with insulin-dependent diabetes, adrenaline becomes the most important hormone for glucose recovery during hypoglycaemia. Cortisol and growth hormone contribute to counterregulation during prolonged hypoglycaemia, but adrenaline is also of utmost importance in this condition. Adrenaline induces the early posthypoglycaemic insulin resistance, whereas cortisol and growth hormone are important for the insulin resistance that is observed later following hypoglycaemia. However, the importance of posthypoglycaemic insulin resistance for induction of posthypoglycaemic hyperglycaemia in clinical situations is limited. The pronounced insulin-antagonistic effect of growth hormone indicates that this hormone, in addition to its effect on the dawn phenomenon, could also play a key role in the regulation of other diurnal rhythms of glucose metabolism.
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PMID:The insulin-antagonistic effect of the counterregulatory hormones. 204 22

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