UNIPROT:P01275 - FACTA Search

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)

Anesthetized dogs received a constant intravenous infusion of tumor necrosis factor (TNF) or saline over 6 h. Glucose kinetics were studied by determining the rate of glucose turnover and hindlimb substrate flux. Cardiovascular responses were monitored and concentrations of counterregulatory hormones were also measured. TNF infusion caused a fall in blood glucose concentration from 4.6 +/- 0.1 to 3.9 +/- 0.2 mmol/l by 6 h (P less than 0.05). This mild hypoglycemia was associated with increased circulating levels of cortisol, glucagon, and epinephrine. The rate of glucose production increased from 26.5 +/- 2.1 to 32.5 +/- 0.7 mumol.min-1.kg body wt-1 (P less than 0.05) over the 6-h infusion period; this response was associated with increased glucose disappearance (26.4 +/- 2.2 to 32.7 +/- 0.9 mumol.min-1.kg body wt-1, P less than 0.05) and enhanced clearance (5.7 +/- 0.5 to 9.0 +/- 0.6 ml.min-1.kg body wt-1, P less than 0.05). As blood glucose levels fell, hindlimb glucose uptake and glucose clearance increased markedly in TNF-infused animals as compared with controls despite a 50% fall in mean serum insulin concentration. The exchange of lactate, pyruvate, and total amino acid nitrogen across the hindlimbs was similar in both groups of animals. However, arterial concentrations of lactate and pyruvate rose to two to three times their initial values. The hypoglycemia associated with the infusion of TNF results from a disparity between the rate of glucose appearance and disappearance. There is an increased uptake of glucose across the hindlimb; this response appears to be independent of insulin concentrations and may be related to direct effects of TNF.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Tumor necrosis factor enhances glucose uptake by peripheral tissues. 258 44

The metabolic response to trauma and sepsis is characterized by a negative nitrogen balance, accelerated muscle proteolysis, increased ureagenesis, and stimulated acute-phase protein synthesis in liver. Inhibited uptake of amino acids and accelerated protein breakdown in muscle increase the flux of amino acids from the periphery to the liver. Concomitantly, hepatic uptake of amino acids is stimulated and protein synthesis and gluconeogenesis in the liver are enhanced. These events are important to the survival of patients with sepsis. Stimulated ureagenesis resulting in nitrogen loss from the body is another important aspect of hepatic nitrogen metabolism following trauma and sepsis. The mediator(s) initiating metabolic changes is not yet exactly defined, although regulatory protein(s) released from stimulated macrophages (particularly interleukin 1 and tumor necrosis factor) may play a major role in altered amino acid and protein metabolism in muscle and liver during sepsis. However, these factors alone are probably not responsible for the metabolic disturbances, since the catabolic hormones cortisol, glucagon, and the catecholamines can simulate the metabolic pattern observed in sepsis. Other possible mediators include prostaglandins and thyroid hormones. It is possible that the interaction between different types of mediators is necessary for the full manifestation of host responses to severe injury and sepsis.
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PMID:Current concepts of protein turnover and amino acid transport in liver and skeletal muscle during sepsis. 329 52

This study was conducted to determine if macrophage elaborated monokines in general, and human recombinant tumor necrosis factor (hrTNF alpha) in particular alter glucose metabolism in a manner analogous to that observed in endotoxin-treated animals. Endotoxin-tolerant rats were infused for 3 hr with saline, E. coli endotoxin (100 micrograms/l weight) or monokines contained in conditioned media from endotoxin-stimulated RAW 264.7 cells (1 microgram/ml). Compared to saline- and endotoxin-infused rats, animals receiving the monokine mixture had no change in mean arterial blood pressure or heart rate but exhibited overt signs of morbidity including stupor and diarrhea. Monokine-infused rats remained euglycemic but had elevated lactate concentrations and a 15-30% increase in glucose rate of appearance (Ra). Nontolerant rats received a 3 hr infusion of saline, hrTNF alpha (15 micrograms/100 g), or heat-treated hrTNF alpha. HrTNF alpha infusion increased glucose Ra about 25% compared to the two control groups but did so without producing signs of morbidity seen in the monokine infused animals. Serum TNF levels were 6-fold higher in rats infused with the monokine mixture compared to animals infused with hrTNF alpha, and this reflected the different levels of TNF contained in the monokine mixture and hrTNF alpha infusates. Plasma insulin, glucagon, and catecholamine concentrations were increased in rats infused with either the monokine mixture or hrTNF alpha, but the increases were more pronounced in rats receiving the monokine mixture. The results demonstrate that monokines and hrTNF alpha increase glucose production in vivo, and that the effect may be mediated by endocrine changes known to influence glucose homeostasis.
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PMID:Glucose kinetics in rats infused with endotoxin-induced monokines or tumor necrosis factor. 337 Jul 60

Cachectin/tumor necrosis factor has been implicated as a mediator of lethal endotoxemia, but the metabolic and hemodynamic responses to this macrophage-derived peptide have been incompletely characterized. Cachectin was administered by intra-arterial infusion in two groups of beagle dogs at lethal (100 micrograms per kilogram) and sublethal (10 micrograms per kilogram) doses. The infusion produced serum cachectin levels (1 to 50 nanomoles per liter) similar to those achieved after experimental endotoxemia. The lethal response to cachectin was characterized by progressive hypotension, shock and death within three hours. Histopathologic findings included acute inflammation of the pulmonary interstitium, intravascular thrombosis with hemorrhagic necrosis, adrenal medullary necrosis and acute renal tubular necrosis. Cachectin infusion precipitated significant increases of plasma catecholamines, cortisol and glucagon in a dose response manner. Cachectin infused directly into the isolated hindlimb mediated reductions of skeletal muscle resting transmembrane potential and stimulated lactate efflux. Cachectin appears to occupy a crucial role in physiopathologic responses to infection, and likely participates in the mobilization of host energy stores, intravascular depletion and shock after lethal endotoxemia.
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PMID:Cachectin/tumor necrosis factor induces lethal shock and stress hormone responses in the dog. 357 18

It has been suggested that the monokine tumor necrosis factor (TNF) (cachectin) is responsible for metabolic abnormalities frequently accompanying malignant neoplasms. The acute metabolic effects of TNF in patients with cancer were studied. Subcutaneous administration of recombinant human TNF led to a rise in the C-reactive protein level (4.4 +/- 1.2 mg/dL vs 11.6 +/- 1.8 mg/dL) and a reduction in the serum zinc level (12.9 +/- 0.8 mumol/L vs 7.3 +/- 0.8 mumol/L [79 +/- 5 mg/dL vs 48 +/- 5 mg/dL]) (values are the mean +/- SEM). Forearm efflux of total amino acids more than doubled after intravenous TNF injection, principally because of increases in release of the gluconeogenic amino acids alanine and glutamine. Concomitantly, the arterial levels of alanine, glutamine, and total amino acids fell, indicating that TNF also stimulated the uptake of amino acids by other tissues. The observed amino acid pattern cannot be explained solely on the basis of measured changes in cortisol, glucagon, or insulin levels. These findings are discussed in relation to known alterations of amino acid metabolism in cancer-associated cachexia.
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PMID:The acute metabolic effects of tumor necrosis factor administration in humans. 368 16

As part of an ongoing search for diabetes susceptibility loci, we tested linkage with non-insulin-dependent diabetes mellitus (NIDDM) for 19 candidate loci or regions chosen for their potential to affect directly or indirectly the action of insulin. Loci were associated with insulin resistance, known effects on lipid metabolism, or effects on glucose metabolism or insulin action. Loci included the insulin-responsive (GLUT4) glucose transporter, hexokinase 2, glucagon, growth hormone, insulin receptor substrate 1 (IRS1), phosphoenolpyruvate carboxykinase, hepatic and muscle forms of pyruvate kinase, hepatic phosphofructokinase, the apolipoprotein B and the apolipoprotein A2 cluster, lipoprotein lipase, hepatic triglyceride lipase, the very-low-density-lipoprotein receptor, and the Pima insulin resistance locus on chromosome 4. For several candidates, no specific informative marker was available; consequently, we tested the surrounding region with highly informative markers. These regions included the diabetes-associated ras-like gene, rad, and the cholesterol ester-transfer gene, both mapped to chromosome 16. Additionally, we tested for linkage with markers at the tumor necrosis factor-alpha gene and the Friedreich's ataxia region. All regions were tested for linkage with microsatellite polymorphisms in > 450 individuals from a minimum of 16 Caucasian families under parametric (LINKAGE 5.1) and nonparametric (affected pedigree member) models.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Linkage analysis of 19 candidate regions for insulin resistance in familial NIDDM. 758 21

The control of metallothionein (MT) synthesis was investigated in freshly prepared rat hepatocytes in experiments of short-term duration. Viability and metabolic function were maintained in incubations of 6-h duration. MT synthesis was measurable in hepatocytes from fed rats at Zn concentrations down to 1 microM. Zn and dexamethasone induced concentration-dependent increases in the synthesis of MT with maximal increases above the 5-h control of 3.2- and 2.5-fold, respectively. Zn induction of MT was first measurable at 2 h and was inhibited by actinomycin C. Although initial (0 h) MT concentrations in hepatocytes from fasted rats were double those from fed rats, after 6-h incubation in the presence of 50 microM Zn, the fasted rat hepatocytes showed only half the MT concentrations of the fed rat hepatocytes. Glucagon and interleukin-6 (IL-6) were less effective inducers and increased MT synthesis by 28 and 17%, respectively. IL-6 (100 U/mL) was found to have an additive effect on MT synthesis above that of Zn alone (1-50 microM) or Zn plus dexamethasone (1 microM). A supernatant from LPS-stimulated macrophages increased MT synthesis by 40%. The basal MT synthesis was not increased by either tumor necrosis factor-alpha (TNF-alpha) or interleukin-1 (IL-1). All incubations were carried out in the presence of RPMI 1640 medium with Hepes (20 mM), bicarbonate (24 mM), and fatty acid-free albumin (FAFA; 0.5% w/v). MT synthesis was also seen using Krebs bicarbonate buffer with glucose (10 mM), Hepes (20 mM), and FAFA (0.5% w/v), and although the level of MT synthesis was less than in RPMI, the increases in concentrations of MT at 5 h were 225, 139, 36 and 20% for Zn, dexamethasone, glucagon, and control, respectively. It is concluded that MT synthesis occurs in freshly prepared hepatocytes and that these cells are responsive to some of the established inducers of MT. This system enables the study of MT synthesis in individual rats in various metabolic and pathological states.
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PMID:Metallothionein induction in freshly isolated rat hepatocytes. 768 80

Intraperitoneal injection of sterile zymosan produces an inflammatory response ultimately resulting in multiple-organ failure. The purpose of the present study was to characterize the hormonal and metabolic alterations produced as a result of this nonbacterial nonendotoxic inflammatory agent and to determine whether these changes were mediated by enhanced production of tumor necrosis factor (TNF). Rats were injected intraperitoneally with either zymosan or saline and studied 18 h later. Under basal conditions, zymosan-injected rats were euglycemic but showed a 43% increase in hepatic glucose production and peripheral glucose uptake. The enhanced glucose flux in zymosan-treated rats was associated with elevations in plasma insulin (45%), glucagon (5-fold), corticosterone (2-fold), epinephrine (34%), and norepinephrine (115%). In vivo studies using 2-deoxyglucose (2-DG) demonstrated that the zymosan-induced increase in whole body glucose disposal resulted from an enhanced uptake by skeletal muscle (68%), diaphragm (3.7-fold), liver (144%), spleen (52%), and fat (133%). Under euglycemic hyperinsulinemic conditions, zymosan-treated rats exhibited both hepatic and peripheral insulin resistance, with the latter resulting from a decreased insulin-mediated glucose uptake by skeletal muscle, heart and diaphragm. Arterial TNF levels were increased by 1 h and remained elevated throughout the experimental protocol. Pretreatment of rats with a neutralizing anti-TNF antibody before zymosan prevented the elevation in basal glucose flux and attenuated the insulin resistance. We conclude that the inflammatory state induced by zymosan enhances basal glucose turnover and impairs insulin action and that these changes appear to be largely due to the enhanced endogenous production of TNF.
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PMID:Tumor necrosis factor mediates zymosan-induced increase in glucose flux and insulin resistance. 786 97

Interleukin-1, tumor necrosis factor, and interleukin-6 inhibit insulin release and may be cytotoxic to isolated pancreatic islets. These cytokines have been postulated to play an important role in the beta cell destruction characteristic of type 1 diabetes. The present study was designed to investigate the effect of the above cytokines on insulin, glucagon, somatostatin, and thyrotropin-releasing hormone secretion by isolated human islets. In addition, we have investigated if cytokine-induced modifications in hormone secretion are accompanied by modifications in the ab initio synthesis of any specific lipidic fraction. All three cytokines studied, although not modifying insulin and somatostatin release to glucose 5 mmol/L, inhibited the response of both hormones to glucose 20 mmol/L. On the other hand, the cytokines almost completely blocked islet basal glucagon release, without affecting thyrotropin-releasing hormone secretion. The added cytokines also suppressed 20 mmol/L [U-14C]glucose incorporation into both phospholipids and diacylglycerol. Our results demonstrate a beta-, alpha-, and delta-cell, sensitivity to cytokine action. Additionally, they suggest that ab initio lipid synthesis might be implicated in the mechanism of insulin release in human islets.
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PMID:Cytokine-induced inhibition of lipid synthesis and hormone secretion by isolated human islets. 802 53

Two groups of conscious dogs were studied using isotopic tracer techniques to test the hypothesis that tumor necrosis factor (TNF) affects glucose production, lipolysis, amino acid, and protein kinetics. [1-13C]leucine, [15N2]urea, [6,6-2H2]glucose, and [2H5]glycerol were infused to determine the leucine, urea, glucose, and lipid kinetics, and NaH14CO3 was infused to determine the rate of CO2 production. In one group, after a 2-h basal period (period 1), recombinant human TNF was infused (prime, 2.5 micrograms/kg; constant, 62.5 ng.kg-1.min-1) for 2 h (period 2; group 1, n = 15). Group 2 received saline rather than TNF in period 2 (n = 3). TNF infusion caused a significant increase in endogenous glucose production, a significant increase in glucose clearance rate, and a decrease in glycerol flux. Although TNF infusion did not change leucine flux, leucine oxidation increased by 49% (P < 0.0001), and nonoxidative leucine disappearance decreased during TNF infusion by 13% (P < 0.0001). TNF infusion also caused a significant increase (18%) in endogenous urea production. TNF significantly increased plasma glucagon concentration. We conclude that TNF causes a shift toward carbohydrate metabolism and stimulates the oxidation of amino acids. Whereas whole body protein breakdown is not affected by TNF, protein synthesis is impaired, leading to an increase in net protein breakdown.
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PMID:Effect of tumor necrosis factor on substrate and amino acid kinetics in conscious dogs. 802 25

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