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)

The present study examines whether in vivo administration of granulocyte colony-stimulating factor (G-CSF) and the resultant neutrophilia alters basal glucose metabolism or modulates the glucose metabolic response to a subsequent endotoxin [lipopolysaccharide (LPS)] challenge. Rats were injected with human recombinant G-CSF (50 micrograms/kg sc) twice daily for 2 days preceding an injection of LPS. Animals treated with G-CSF showed an eightfold increase in blood polymorphonuclear leukocytes (PMNs) but no detectable changes in hemodynamics or glucose metabolism. In control animals, LPS transiently decreased circulating PMN number, but by 4 h neutrophils had returned to control levels. LPS produced a greater reduction in circulating neutrophils in G-CSF-treated animals, which did not return to pretreatment levels by 4 h. G-CSF also produced marked changes in the glucose metabolic response to LPS. Rates of whole body glucose production and utilization in both control and G-CSF-treated rats were rapidly increased by LPS; however, the increment in glucose flux was 55-100% greater in the latter group. The enhanced rate of hepatic glucose production in this group occurred despite lower plasma levels of lactate and glucagon. The elevated rate of whole body glucose utilization was attributable to the G-CSF-enhanced LPS-induced increase in glucose uptake by the ileum, spleen, liver, and lung. Furthermore, LPS increased glucose uptake by skeletal muscle in G-CSF-treated rats but not in control animals. The enhanced glucose disposal in G-CSF-treated rats was not mediated by increases in plasma glucose or insulin concentrations.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Modulation of glucose metabolic response to endotoxin by granulocyte colony-stimulating factor. 127 93

Tumor necrosis factor (TNF), interleukin 1 (IL-1) and interleukin 6 (IL-6) are central mediators of the inflammatory response. We investigated the modulation of these cytokines by hormones in vitro. Murine adherent peritoneal exudate cells (PEC) were exposed to various concentrations of hormones followed by lipopolysaccharide (LPS, 10 micrograms/ml). TNF, IL-1 and IL-6 production were assessed by bioassays, enzyme-linked immunosorbent assays (ELISA) or Western blot, and specific RNA transcripts by Northern blot. Hydrocortisone in concentrations as low as 10 ng/ml had dramatic inhibitory effects on supernatant levels of TNF and IL-1 and on TNF, IL-1 and IL-6 transcript number. Supernatant levels of IL-6 were only slightly diminished by hydrocortisone. Adrenocorticotrophic hormone (ACTH) and insulin increased supernatant levels of TNF bioactivity in response to LPS, while each decreased available TNF-alpha gene transcripts. Thus TNF protein production was affected at a post-transcriptional level. ACTH and insulin increased supernatant levels of IL-6 produced in response to LPS without altering available transcripts. Corticotrophin-releasing factor (CRF), epinephrine and glucagon had no effect on supernatant levels of cytokine. Thus, physiological and pharmacological concentrations of hydrocortisone had dramatic inhibitory effects on the supernatant levels of TNF and IL-1, and on the number of available TNF, IL-1 and IL-6 transcripts in PEC exposed to LPS, but had minimal effects on supernatant levels of IL-6 bioactivity. This hydrocortisone action may be a specific negative feedback system for IL-1 and TNF, with relative sparing of IL-6.
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PMID:Hormonal regulation of inflammatory cell cytokine transcript and bioactivity production in response to endotoxin. 131 63

When heat-killed Propionibacterium acnes was intravenously injected into mice and seven days later, a small amount of gram-negative lipopolysaccharide (LPS) was also intravenously injected, most of them died of massive hepatic cell necrosis. However, then glucagon (0.5 mg/kg body weight) and insulin (0.5 units/kg body weight) or glucagon (0.5 mg/kg body weight) individually were administered during this experimental induction of massive hepatic cell necrosis, the survival rate of mice increased and serum transaminase levels improved. Also, the histological changes of the liver improved remarkably. But, insulin (0.5 units/kg body weight) individually was not effective in an experimental massive cell necrosis model. These results suggested that glucagon and insulin was effective in our experimental massive hepatic cell necrosis model.
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PMID:[The protective effects of glucagon and insulin in an experimental massive hepatic cell necrosis model]. 218 24

16,16-Dimethylprostaglandin E2 (dimethylPGE2) increased the incorporation of glucose into glycogen in rat hepatocytes in primary culture and its stimulatory effect was blocked by pretreatment of the cells with pertussis toxin. In contrast, dimethylPGE2, prostaglandin E2 (PGE2) and prostaglandin F2 alpha (PGF2 alpha), but not prostaglandin D2 (PGD2), inhibited glucose incorporation in insulin-induced glycogenesis, and these inhibitory effects were not blocked by pretreatment with pertussis toxin. Prostaglandins and other stimuli (lipopolysaccharide, platelet-activating factor, phorbol ester and zymosan) did not increase the release of [14C]glucose from [14C]glycogen-labeled hepatocytes. On the other hand, under identical conditions except for the presence of glucagon, isoproterenol (beta-adrenergic response) or epinephrine (with propranolol, alpha 1-adrenergic response), dimethylPGE2 and PGE2 inhibited hormone-stimulated glycogenolysis but again PGD2 had no effect.
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PMID:Effect of prostaglandins on glycogenesis and glycogenolysis in primary cultures of rat hepatocytes--a role of prostaglandin D2 in the liver. 235 17

Nonlethal endotoxemia was produced in conscious fasted rats by the intravenous (i.v.) administration of Salmonella enteritidis lipopolysaccharide (LPS) at a dose of 30 micrograms/100 g together with the typical acute-phase response of fever at 4 hr post-LPS. Also at 4 hr post-LPS both hyperinsulinemia and hyperglucagonemia were manifested, the (insulin:glucagon) (I:G) molar ratio was not different from saline control animals, and normoglycemia was maintained. The monokine interleukin-1 (IL-1), which is synthesized de novo and then released by macrophages and monocytes following LPS phagocytosis, has been implicated in the typical responses to endotoxemia. Therefore, human natural IL-1 was injected i.v. at a dose of 50 U into conscious fasted rats. IL-1-induced fever occurred at 30 min postinjection. Hyperinsulinemia equal to two times the saline control value was also present at 30 min after monokine injection, with plasma insulin levels declining to below control values by 60 min and remaining depressed for up to 12 hr. In contrast, plasma glucagon concentrations were not significantly altered at any time between 15 min and 12 hr post-IL-1. Despite IL-1-elicited hyperinsulinemia with unchanged glucagon, which elevated the I:G molar ratio, normoglycemia was maintained after monokine administration. The coincident onset of fever and hyperinsulinemia at 30 min after i.v. administration of IL-1 suggests a common mediator for both responses.
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PMID:Hyperinsulinemia elicited by interleukin-1 and nonlethal endotoxemia in rats. 266 Oct 47

The effect of endotoxin (lipopolysaccharide from E. coli) on isolated adrenocortical cells was examined. Lipopolysaccharide decreased the ACTH-induced steroidogenesis. This effect was shown by all corticotropin concentrations studied, and the longer the incubation time, the higher the effect produced. The rate of decrease of ACTH-induced steroidogenesis was dependent on the concentration of lipopolysaccharide in the medium. Binding of [125I]ACTH to adrenocortical cells was modified by lipopolysaccharide; this modification was related to a decrease of the ACTH-induced steroidogenesis. This effect supports the hypothesis of a direct interaction between lipopolysaccharide and the cell membrane with a concomitant distortion of the cell surface affecting the ACTH receptor sites of their environment. [14C]Lipopolysaccharide binds to isolated adrenocortical cells. Binding specificity was investigated by competitive experiments in the presence of various types of endotoxins, polypeptide hormones and proteins. Unlabelled lipopolysaccharide from the same bacterial strain and isolated under identical conditions than the labelled lipopolysaccharide exerted the strongest inhibitory activity. Unlabelled lipopolysaccharide of various strains different from that originating the labelled lipopolysaccharide exerted the less displacement. It would imply a certain kind of specificity but the decrease in the binding of lipopolysaccharide produced by ACTH and glucagon suggests the existence of non-specific interactions between lipopolysaccharide and cell membrane.
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PMID:Influence of E. coli endotoxin on ACTH induced adrenal cell steroidogenesis. 298 73

Endotoxemia is a frequent complication of many health disorders. It is characterized by systemic release of a variety of endogenous inflammatory mediators which effect cardiovascular depression, reductions in organ blood flow, tissue ischemia and derangements in cellular metabolism leading to death. During a continuous intravenous infusion of Escherichia coli lipopolysaccharide, the chronology of alterations in hepatosplanchnic blood flow, hepatic carbohydrate metabolism and pancreatic insulin secretion has been studied in awake Yucatan miniature pigs (Sus scrofa). Endotoxic shock in this model is characterized by reductions in portal venous and hepatic arterial blood flow, early transient increases in pancreatic insulin secretion, increases in the 3H-glucose-derived rates of glucose appearance and disappearance, profound hypoglycemia, hyperlactatemia and metabolic acidosis. Reductions in hepatic oxygen delivery are compensated for by enhanced oxygen extraction efficiency, but hepatic gluconeogenesis continues at an inadequate rate to compensate for increased glucose utilization. Experimental therapies including lidocaine, naloxone, captopril, dichloroacetate and glucagon each effect specific improvements in cardiovascular or metabolic function, but none significantly alter the composite derangements responsible for lethality in this model.
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PMID:Endotoxemia in Yucatan miniature pigs: metabolic derangements and experimental therapies. 353 41

This laboratory has proposed that endogenous gut-derived bacterial endotoxin primes the pancreatic secretion of insulin in normal rats. Endogenous lipopolysaccharide (LPS) is continually absorbed from the gut into intestinal capillaries, and low-grade portal venous endotoxemia is the status quo. Under physiologic conditions, Kupffer cells of the liver totally phagocytize and degrade endotoxin from the portal circulation. Evidence from this and other laboratories indicates that administration of exogenous LPS to humans and rats enhances pancreatic secretion of both insulin and glucagon. Conversely, findings of the present study demonstrate that restriction of endogenous LPS in fasted rats depresses the basal and arginine-stimulated concentrations of plasma insulin. Techniques used to restrict gut-derived LPS availability included chronic daily gavage with neomycin and cefazolin for gut sterilization and with cholestyramine or lactulose to reduce endotoxin within the gut. In addition, induction of endotoxin tolerance was produced by progressively higher doses of LPS intraperitoneally (i.p.), and polymyxin B was administered subcutaneously (s.c.) daily to neutralize the lipid A portion of circulating LPS. Finally, isolator-reared, defined flora rats, which were gram-negative-bacteria-deficient, and, therefore, LPS-deficient, were compared with conventional counterparts. Basal plasma insulin but not glucagon levels were consistently and significantly reduced in endogenous LPS-restricted animals. Glucose-stimulated plasma insulin was decreased only after parenteral treatment by tolerance induction and polymyxin B administration. Both plasma insulin and glucagon were depressed in response to arginine challenge in most LPS-restricted rats.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Endogenous gut-derived bacterial endotoxin tonically primes pancreatic secretion of insulin in normal rats. 390 58

Number and affinity constant of low affinity binding sites of insulin and glucagon to isolated hepatocytes decreased when the cells were incubated with Escherichia coli 0111:B4 lipopolysaccharide. This effect agrees with a non-specific binding of lipopolysaccharide to hepatocytes, similar to the well-recognized non-specific binding of albumin. Also, binding of different lectins to their glycoprotein receptors did not affect the [14C]lipopolysaccharide interaction with the cell membrane surface. Endotoxin depresses gluconeogenesis from lactate when the precursor was incubated with the cells for short time intervals. The longer the preincubation interval with lipopolysaccharide, the higher the inhibition of gluconeogenesis in the absence and in the presence of glucagon. The effect of endotoxin was also studied on the glucagon-induced synthesis of cyclic AMP and the glucagon binding. Levels of cyclic AMP and hormone binding decreased with increasing both endotoxin concentrations and preincubation intervals at which cells were in contact with endotoxin.
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PMID:Effect of Escherichia coli lipopolysaccharide on the glucagon and insulin binding to isolated rat hepatocytes. 609 7

The intravenous administration of bacterial endotoxin to fasted rats elicited basal portal and systemic venous hyperinsulinemia and hyperglucagonemia. Enhanced pancreatic secretion of insulin and glucagon was implied by the elevated portal venous hormonal levels. Elevated insulin and glucagon levels were present at 4 hr after a 33 micrograms/100 gm intravenous endotoxin dose despite no fluctuation of the plasma glucose concentration. The role of the liver in the pancreatic hormonal response to endotoxin was investigated by infusing lipopolysaccharide slowly into the portal vein or systemic inferior vena cava. At doses of 33 and 100 micrograms per 100 gm, endotoxin administered via the systemic route stimulated significantly greater insulin and glucagon responses than did portal administration. Furthermore, rats with acute liver injury induced by partial (67%) hepatectomy, which depressed Kupffer cell phagocytosis, did respond to the 33 micrograms per 100 gm intraportal endotoxin dose with significantly greater hyperinsulinemia and hyperglucagonemia. These data suggest that hepatic Kupffer cells normally function to remove lipopolysaccharide from the portal venous blood and that at least at low pharmacological doses the pancreatic hormonal response to endotoxin is mediated by an unknown systemic mechanism.
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PMID:Role of the liver in endotoxin-induced hyperinsulinemia and hyperglucagonemia in rats. 633 52


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