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)

Peptide alpha-amidation, an essential posttranslational modification that confers bioactivity to many neuroendocrine peptides, is catalyzed by peptidylglycine alpha-amidating monooxygenase (PAM; EC 1.14.17.3). To complement our previous studies on the distribution of PAM in neuroendocrine organs, we have examined expression of the PAM gene in several endocrine tissues by in situ hybridization and immunocytochemistry. In all instances, the autoradiographic densities for PAM mRNA correlated with staining patterns for PAM immunoreactivity. Very high levels of PAM mRNA were found in all heart atrial cardiomyocytes, while much lower levels were present in ventricular cells. In the sublingual gland, PAM was expressed diffusely in both acinar and tubule cells. In contrast, expression of PAM was confined to granular convoluted tubule cells in the submaxillary gland. PAM was expressed at high levels in a subset of adrenal medullary chromaffin cells, and low levels of PAM mRNA and immunoreactivity were also detected in the adrenal cortex. PAM was found predominantly in the calcitonin-producing parafollicular C-cells in the thyroid gland and in the glucagon-containing A-cells in the endocrine pancreas. Collecting and distal tubule cells of the kidney expressed both PAM mRNA and immunoreactivity. The basal cells in testicular seminiferous tubules containing PAM may represent developing germ and Sertoli cells. The cellular localization of PAM within the thyroid gland, adrenal gland, testis, and pancreas correlated with known peptidergic systems, and some of the observed cellular heterogeneity in PAM mRNA expression and immunoreactivity may reflect differences in the levels of amidated peptide production. The expression of PAM in cells not known to produce high levels of alpha-amidated peptides may indicate the production of yet unidentified alpha-amidated bioactive peptides or alternative functions of the PAM protein.
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PMID:Expression of peptidylglycine alpha-amidating monooxygenase: an in situ hybridization and immunocytochemical study. 157 93

The effect of glucose hyperalimentation on energy metabolism in the cirrhotic rat liver after 70% hepatectomy was studied. After resection, rats received either 30 kcal/kg per day (group I) or 200 kcal/kg per day (group II) of glucose for 48 h. In both groups, hepatic mitochondrial ATP synthesis was accelerated when palmitic acid was used as substrate and suppressed when pyruvate was used. This suggests that the energy substrate of the remnant liver was principally fatty acids rather than glucose. Hepatic energy charge was within normal limits in group I, but decreased significantly in group II after hepatectomy. An abundance of glucose in the early postoperative period, therefore, caused a hepatic energy derangement by suppressing fatty acids utilization; this suppression was corroborated by the findings of lower immunoreactive glucagon and non-esterified fatty-acid concentrations in group II. To determine optimal glucose administration, the predicted value of glucose disposal rate (GDR) was calculated after an intravenous glucose tolerance test. GDR decreased significantly after hepatectomy and did not increase appreciably even with a large dose of insulin administration. These results suggest that glucose administration should be tailored to the GDR values after resection of the cirrhotic liver.
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PMID:Glucose overload and hepatic energy metabolism after resection of the cirrhotic liver in rats. 178 71

To determine whether physiological changes in plasma glucagon concentrations are important in regulating basal adipose tissue lipolysis, FFA flux ([1-14C]palmitate) was measured in response to increases and decreases in plasma glucagon. Eight volunteers with insulin-dependent diabetes mellitus (IDDM) and nine healthy nondiabetic volunteers were studied using the pancreatic clamp technique to control plasma insulin, GH, and glucagon concentrations at desired levels. Palmitate flux at the chosen euglucagonemic hormone infusion rates was similar to baseline values (1.73 +/- 0.12 vs. 1.75 +/- 0.23 and 1.35 +/- 0.18 vs. 1.35 +/- 0.16 mumol/kg.min, respectively, in IDDM and nondiabetic subjects). No significant changes in palmitate flux occurred in response to glucagon withdrawal or mild (nondiabetic volunteers) or high physiological (IDDM volunteers) hyperglucagonemia. Thus, under conditions of normal FFA availability, changes in plasma glucagon concentrations within the physiological range have little or no effect on adipose tissue lipolysis.
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PMID:Effects of glucagon on free fatty acid metabolism in humans. 199 2

Cold exposure reverses the diabetogenic effects of high-fat feeding and markedly stimulates glucose uptake in rat brown adipose tissue (BAT). Considering that cold exposure increases the plasma levels of norepinephrine and lipolytic hormones, but decreases the levels of insulin, we have examined the effects of these agents on glucose transport in isolated rat brown adipocytes using D-[U-14C]glucose as a tracer. It was found that norepinephrine (0.1 microM), glucagon (0.1 nM) and ACTH (100 nM) all increased brown adipocyte respiration (2-10 times) and glucose transport (2-5 times). Studies with adrenergic agonists and antagonists revealed that norepinephrine increases glucose uptake via beta-adrenergic pathways. On the other hand, insulin also increased glucose transport (6 times) but inhibited (40-60 percent) the calorigenic effects of the lipolytic hormones. Both norepinephrine and glucagon potentiated the submaximal insulin responses for glucose transport, demonstrating the existence of metabolic interactions between norepinephrine-, glucagon-, and insulin-mediated glucose uptake. Remarkably, the stimulatory effects of these lipolytic agents were reproduced by dibutyryl cAMP (1 mM), isobutylmethylxanthine (0.1 mM) and palmitic acid (0.5 mM), suggesting that cAMP increases glucose transport via activation of lipolysis and thermogenesis. Considering that the stimulatory effects of norepinephrine (0.1 microM) on respiration and glucose transport were totally blocked by 2-tetradecylglycidic acid (50 microM), a specific inhibitor of mitochondrial carnitine acyl transferase, it is concluded that norepinephrine increases BAT glucose transport via fatty acid-activation of mitochondrial thermogenesis.
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PMID:Mechanism of norepinephrine stimulation of glucose transport in isolated rat brown adipocytes. 217 49

E series prostaglandins and their biologically active analogue, 16,16-dimethylprostaglandin E2 (dimethylprostaglandin E2), have inhibited hormone-stimulated glycogenolysis in hepatocytes cultured from male rats (Okumura, T., Sago, T. and Saito, K. (1988) Biochim. Biophys. Acta 958, 179-187). However, in the case of female rat hepatocytes, it is evident that dimethylprostaglandin E2 did not inhibit the glycogenolysis stimulated by glucagon, isoproterenol (beta-adrenergic response) or epinephrine (with propranolol, alpha 1-adrenergic response) in cultures on day 1. Dimethylprostaglandin E2 inhibited such hormone-stimulated glycogenolysis in cultures on day 2 and 3, but to a lesser extent than in the male-derived cells. The concentration for 50% inhibition was approx. 10(-8) M; inhibition was completely blocked by a pertussis toxin. Prostaglandin E2 had the same effect as dimethylprostaglandin E2; prostaglandins D2 and F2 alpha had no effect. Additions of sex hormones, 17 beta-estradiol and testosterone, and palmitic acid (diminishing the prostaglandin catabolism) to the culture medium did not change the effect of dimethylprostaglandin E2. These data indicate that a sex difference exists in the inhibition of hepatic glycogenolysis by prostaglandin E2 and its analogue in rat cultured hepatocytes, although the factor causing such a difference is a present unknown.
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PMID:A sex difference in the effect of prostaglandins on hormone-stimulated glycogenolysis in primary cultures of rat hepatocytes. 231 Jul 80

Rat foetal hepatocytes in primary cultures were used as a model for the study of malic enzyme gene expression. Carbohydrates and glycolytic metabolites produced the precocious induction of the malic enzyme in foetal hepatocytes cultured in the absence of serum and hormones. Palmitate prevented this induction. Insulin and triiodothyronine produced a significant increase in the malic enzyme specific activity in all the conditions studied. A synergistic effect between the two hormones is observed only when high concentrations of glucose are present. Glucagon prevents partially the induction produced by insulin plus triiodothyronine. Both carbohydrate and hormonal inductions of malic enzyme activity are related to parallel increases in its expression, and are prevented by protein synthesis inhibitors.
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PMID:Precocious induction of malic enzyme by nutritional and hormonal factors in rat foetal hepatocyte primary cultures. 266 70

We have used primed constant infusions of [1-13C]palmitic acid, [2-3H]glycerol, and [U-14C]glucose to evaluate the response of glucose and fat kinetics to alpha or beta adrenergic blockade in conscious dogs. The response of each blocking agent was evaluated both with and without control of the glucoregulatory hormones. When hormones were controlled, somatostatin and metyrapone were infused to block hormonal secretion, and insulin, glucagon, growth hormone, and cortisol were replaced at basal physiological rates. alpha blockade (beta stimulation) did not influence glucose production or oxidation, but it did decrease glucose clearance when hormones were controlled. Clearance did not decrease during blockade when hormones were not controlled, presumably because of the resulting increase in the plasma insulin concentration. Glucose production, plasma glucose concentration, and glucose oxidation all increased with beta blockade (alpha stimulation). alpha blockade (beta stimulation) resulted in an increase in lipolysis, whereas beta blockade (alpha stimulation) resulted in a decrease in lipolysis. In neither case, however, did FFA oxidation change. We conclude that (a) the predominant effect of unopposed stimulation is the stimulation of lipolysis, whereas unopposed alpha stimulation inhibits lipolysis. Direct effects of either alpha or beta stimulation on glucose kinetics are less dramatic, but both alpha and beta stimulation decrease glucose clearance.
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PMID:The integrated effect of adrenergic blockade on glucose, fatty acid, and glycerol kinetics: responses in the basal state and during hormonal control with somatostatin-hormonal infusion. 288 Oct 26

The hepatic level of prostaglandins will reflect the balance between synthesis of prostaglandins and their rapid catabolism via beta-oxidation by hepatocytes. In the present study we examined the effect of physiological fuel substrates on the breakdown and action of prostaglandin E2 (PGE2) in isolated rat hepatocytes. Palmitic acid (0.32 mM), a long-chain fatty acid, inhibited the rate of PGE2 breakdown (10(-7) M) by approx. 80%. As the palmitic acid concentration was increased from 0 to 0.8 mM, the percentage of PGE2 remaining in the incubation 5 min following prostaglandin addition was raised from approx. 10% to over 98%. Octanoic acid (0.8 mM) also inhibited PGE2 catabolism, while butyric acid (0.8 mM) and pyruvic acid (2.5 mM) were without effect. The inhibition of glucagon-stimulated glycogenolysis by PGE2 was increased in the presence of 0.6 mM palmitic acid, consistent with decreased PGE2 catabolism. These studies demonstrate that changes within the range of free fatty acid concentrations seen physiologically in vivo may dramatically alter PGE2 catabolism and, therefore, the effect of PGE2 to modulate hormonal action in the liver.
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PMID:Modulation of prostaglandin E2 catabolism and action by fuel substrates in rat hepatocytes. 291 5

These studies were designed to determine whether the insulin resistance of fasting extends to its antilipolytic effects and whether fasting enhances the lipolytic effects of adrenergic stimulation independent of changes in plasma hormone and substrate concentrations. Palmitate flux was determined isotopically ([1-14C]palmitate) before and during epinephrine infusion in normal volunteers after a 14-h (day 1) and an 84-h (day 4) fast. Using a pancreatic clamp, constant plasma hormone and glucose concentrations were achieved on both study days in seven subjects. Six subjects were infused with saline and served as controls. During the pancreatic clamp, palmitate flux was greater (P less than 0.01) on day 4 than day 1, despite similar plasma insulin, glucagon, growth hormone, cortisol, epinephrine, norepinephrine, and glucose concentrations. The lipolytic response to epinephrine was greater (P less than 0.05) on day 4 than day 1 in both groups of subjects. In conclusion, lipolysis during fasting is less completely suppressed by insulin and more readily stimulated by epinephrine.
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PMID:Lipolysis during fasting. Decreased suppression by insulin and increased stimulation by epinephrine. 354 9

The effect of gram-negative sepsis on the kinetics and oxidation of very low-density lipoprotein (VLDL) fatty acids was assessed in conscious dogs in the normal state and 24 h after infusion of live Escherichia coli. VLDL, labeled with [2-3H]glycerol and [1-14C]palmitic acid, was used to trace VLDL kinetics and oxidation, and [1-13C]palmitic acid bound to albumin was infused simultaneously to quantify kinetics and oxidation of free fatty acid (FFA) in plasma. Sepsis caused a fivefold increase in the rate of VLDL production (RaVLDL). In the control dogs, the direct oxidation of VLDL-fatty acids was not an important contributor to their overall energy metabolism, but in dogs with sepsis, 17% of the total rate of CO2 production could be accounted for by VLDL-fatty acid oxidation. When glucose was infused into dogs with insulin and glucagon levels clamped at basal levels (by means of infusion of somatostatin and replacement of the hormones), RaVLDL increased significantly in the control dogs, but it did not increase further in dogs with sepsis. We conclude that the increase in triglyceride concentration in fasting dogs with gram-negative sepsis is the result of an increase in VLDL production and that the fatty acids in VLDL can serve as an important source of energy in sepsis.
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PMID:Effect of sepsis on VLDL kinetics: responses in basal state and during glucose infusion. 389 May 59

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