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 hormones and cytokines on angiotensinogen production were studied in primary cultured rat hepatocytes. The basal secretion of angiotensinogen decreased during culture. The addition of dexamethasone and (Bu)2cAMP completely prevented this decrease. Angiotensinogen secretion by freshly plated hepatocytes was slightly increased in response to dexamethasone, but after 24 h in culture, hepatocytes no longer responded to dexamethasone alone. When hepatocytes were treated with (Bu)2cAMP, glucagon, or forskolin, angiotensinogen secretion increased in response to dexamethasone in a concentration-dependent manner. 17 beta-Estradiol and T3 failed to stimulate angiotensinogen secretion in either the presence or absence of (Bu)2cAMP. Interleukin-6 (IL-6) exhibited a stimulatory activity on angiotensinogen secretion, which was dependent on the presence of dexamethasone, whereas IL-1 and tumor necrosis factor had no effect in either the presence or absence of dexamethasone and/or (Bu)2cAMP. Unlike primary cultured hepatocytes, angiotensinogen secretion by rat hepatoma H4IIEC3 cells increased in response to dexamethasone alone. This increase was not enhanced by (Bu)2cAMP, but was enhanced by IL-6. Thus, in primary cultures of rat hepatocytes, neither glucocorticoid, cAMP, nor IL-6 alone stimulated angiotensinogen production, but a combination of glucocorticoid and cAMP or of glucocorticoid and IL-6 exhibited a stimulatory activity on angiotensinogen production. These results suggest that angiotensinogen production in the liver is synergistically regulated by these factors, whereas the hepatoma cell line H4IIEC3 lacks the regulatory mechanism of cAMP on glucocorticoid-induced angiotensinogen production.
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PMID:Stimulation of angiotensinogen production in primary cultures of rat hepatocytes by glucocorticoid, cyclic adenosine 3',5'-monophosphate, and interleukin-6. 131 Dec 38

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

The relationships between metabolic alterations and tissue-specific gene expression of tumor necrosis factor-alpha (TNF-alpha), interleukin 6 (IL-6), gamma-interferon (gamma-IFN), and interleukin 1 and serum levels of TNF-alpha and IL-6 before and after a live Escherichia coli septic challenge to rats were examined. From 0 to 2 h, serum glucose significantly decreased while plasma glucagon increased. By 8 h, plasma glucagon, serum insulin, and glucose appearance were significantly elevated. Gene expression of phosphoenolpyruvate carboxykinase increased 1 h after E. coli but by 4 h was significantly decreased. TNF-alpha mRNA (liver and spleen) and serum peptide levels peaked 1-2 h after the septic challenge and then decreased substantially by 6-8 h. Spleen IL-6 and gamma-IFN mRNA expression reached a maximum 4 h after E. coli challenge, whereas serum IL-6 levels were elevated by 2 h after injection of the bacteria. The increase in TNF-alpha mRNA and serum peptide levels correlated with the early fall in serum glucose and rise in plasma glucagon. Alterations in the rate of glucose appearance and plasma glucagon were observed later and coincided with the increased mRNA expression of IL-6 and gamma-IFN. Thus the metabolic alterations observed in the septic rat are associated with a complex cascade of several cytokines.
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PMID:Sepsis-induced cascade of cytokine mRNA expression: correlation with metabolic changes. 159 Mar 83

Cytokine effects on permanent cell lines of transformed mouse pancreatic alpha- and beta-cells were compared. The beta-tumor cell 1 (beta TC1) line (from an adenoma created in transgenic mice expressing the SV40 large T-antigen oncogene under control of the rat insulin II promoter) produced insulin predominantly, although small quantities of intracellular glucagon (100:1 insulin to glucagon) were detectable by radioimmunoassay. The alpha TC1 line (from an adenoma created in transgenic mice expressing the SV40 large T-antigen oncogene under control of the rat preproglucagon promoter) produced not only glucagon but also considerable quantities of insulin (4:1 glucagon to insulin) and preproinsulin mRNA. We therefore cloned alpha TC1 cells and obtained 12 glucagon-producing clonal cell lines that did not produce levels of insulin detectable by radioimmunoassay. Analysis by Northern blotting of total RNA from two lines, alpha TC1 clones 6 and 9, confirmed the absence of preproinsulin mRNA. No somatostatin or pancreatic polypeptide was detected by immunohistochemical staining in alpha TC1 clones 6 or 9 or beta TC1 cells. Rat recombinant gamma-interferon (IFN-gamma; 5-250 U/ml) or mouse recombinant interleukin 1 (IL-1; 1-25 U/ml) individually inhibited DNA synthesis in beta TC1 cells after 3 days of treatment. The two cytokines in combination acted synergistically to further depress DNA synthesis and increase cytotoxicity. In contrast, alpha TC1 clone 9 cells were not sensitive to inhibition of DNA synthesis by each cytokine individually, although glucagon synthesis was inhibited. The combination of these cytokines caused marked inhibition of DNA and glucagon syntheses in alpha TC1 clone 9 cells. alpha TC1 clone 9 cells were somewhat more resistant to the cytotoxic action of the combined cytokines than were beta TC1 cells. Incubation with 50 U/ml IFN-gamma induced class II MHC molecules (I-Ab, I-Ad, and I-Ed) and enhanced the constitutive expression of class I molecules (H-2Kb and H-2Kd) on the cell surfaces of beta TC1, uncloned alpha TC1, and alpha TC1 clones 6 and 9. Thus, these cell lines are heterozygous for MHC alleles derived from both parental strains used in the construction of the transgenic mice [C57BL/6J (H-2b) and DBA/2J (H-2d)]. Class II gene transcription induced by IFN-gamma was confirmed in beta TC1 and alpha TC1 clone 9 cells by Northern blot analysis with A alpha-, A beta-, E alpha, and E beta-DNA probes.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Comparison of cytokine effects on mouse pancreatic alpha-cell and beta-cell lines. Viability, secretory function, and MHC antigen expression. 210 69

The in vivo alterations in organ-specific substrate processing and endogenous mediator production induced by endotoxin were investigated in healthy volunteers. An endotoxin bolus (20 U/kg) produced increased energy expenditure, hyperglycemia, hypoaminoacidemia, and an increase in circulating free fatty acids. These changes included increased peripheral lactate and free fatty acid output, along with increased peripheral uptake of glucose. Coordinately, there were increased splanchnic uptake of oxygen, lactate, amino acids, and free fatty acids, and increased splanchnic glucose output. There were no changes in circulating glucagon, or insulin and transient changes in epinephrine and cortisol were insufficient to explain the metabolic changes. Plasma cachectin levels peaked 90 min after the endotoxin infusion, and hepatic venous (HV) cachectin levels (peak 250 +/- 50 pg/ml) were consistently higher than arterial levels (peak 130 +/- 30 pg/ml, P less than 0.05 vs. HV). No interleukin 1 alpha or 1 beta was detected in the circulation. Circulating interleukin 6, measured by B.9 hybridoma proliferation, peaked 2 h after the endotoxin challenge (arterial, 16 +/- 2 U/ml; HV, 21 +/- 3 U/ml). The net cachectin efflux (approximately 7 micrograms) from the splanchnic organs demonstrates that these tissues are a major site for production of this cytokine. Hence, splanchnic tissues are likely influenced in a paracrine fashion by regional cachectin production and may also serve as a significant source for systemic appearance of this cytokine.
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PMID:The acute splanchnic and peripheral tissue metabolic response to endotoxin in humans. 234 17

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

Substantial in vitro evidence suggests that nitric oxide may be a major mediator of interleukin 1 (IL-1) induced pancreatic beta-cell inhibition and destruction in the initial events leading to insulin-dependent diabetes mellitus. Using NG-nitro-L-arginine methyl ester, an inhibitor of both the constitutive and the cytokine inducible forms of nitric oxide synthase, and aminoguanidine, a preferential inhibitor of the inducible form of nitric oxide synthase, we investigated the impact of inhibiting nitric oxide production on food-intake, body weight and temperature, blood glucose, plasma insulin, glucagon, corticosterone and leukocyte- and differential-counts in normal rats injected once daily for 5 days with interleukin 1 beta (IL-1 beta) (0.8 microgram/rat = 4.0 micrograms/kg). Inhibition of both the constitutive and the inducible forms of nitric oxide synthase prevented IL-1 beta-induced fever, hyperglycaemia, hypoinsulinemia, and hyperglucagonemia, and partially prevented lymphopenia and neutrophilia, but had no effect on IL-1 beta-induced anorexia and changes in plasma corticosterone. Preferential inhibition of the inducible form of nitric oxide synthase using two daily injections of 5 mg/rat of aminoguanidine prevented IL-1 beta-induced hyperglycaemia and hypoinsulinaemia, and slightly reduced the pyrogenicity of IL-1 on 3 out of 5 days. Higher doses of aminoguanidine (100 mg/rat) prevented lymphopenia and neutrophilia. We conclude that nitric oxide produced by the inducible form of nitric oxide synthase, mediates the IL-1 beta-induced inhibition of insulin release and that the effect of IL-1 beta on temperature, pancreatic alpha-cells, and leukocyte differential counts seems to be mediated by nitric oxide produced by the constitutive form of nitric oxide synthase.
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PMID:Interleukin 1 beta induces diabetes and fever in normal rats by nitric oxide via induction of different nitric oxide synthases. 753 59

The regulation of metallothionein induction in cultured rat hepatocytes was investigated with Zn, hormones, cytokines and either the synthetic glucocorticoid, dexamethasone, or the endogenous rat glucocorticoid, corticosterone. A concentration-dependent increase was seen with Zn (two- to fivefold increase in 24 h, Zn 10-50 mumol/L). Dexamethasone at 1 mumol/L increased metallothionein synthesis by fourfold that of the controls. Maximal metallothionein concentrations of 17-fold the control value were seen with 50 mumol/L Zn and 1 mumol/L dexamethasone. Interleukin-6 (1 x 10(5) U/L) alone did not induce metallothionein but increased it 35-65% with Zn+dexamethasone. Like dexamethasone, corticosterone had a dose dependent effect on metallothionein and synergy with Zn and Zn+interleukin-6. Dexamethasone was approximately 100 times more potent than corticosterone at 10-100 mumol/L. Physiological concentrations of corticosterone (1 mumol/L) when added alone, with Zn (10 mumol/L), and with Zn+interleukin-6 resulted in inductions of 2.2, 5.0 and 7.4-fold above the control cultures. Glucagon (1 mumol/L) had no independent effect but increased metallothionein by 31% and 33% with Zn(10 mumol/L)+dexamethasone (1 mumol/L) and Zn-dexamethasone+interleukin-6, respectively. There was no accumulation of metallothionein with interleukin-1 beta, tumor necrosis factor alpha or interferon gamma (1 x 10(5) U/L) alone, but interleukin-1 beta and tumor necrosis factor alpha enhanced the response obtained with Zn+dexamethasone with and without interleukin-6. Insulin (100 U/L) alone, caused metallothionein accumulation and further enhanced the response seen with Zn+dexamethasone+interleukin-6+glucagon. No additional enhancement was seen with interleukin 1 beta+tumor necrosis factor alpha+interferon. The results demonstrate that concentrations of corticosterone in rats with experimental inflammation facilitate metallothionein induction with Zn and interleukin-6.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Corticosterone enhances the zinc and interleukin-6-mediated induction of metallothionein in cultured rat hepatocytes. 836 Jul 72

Early and severe loss of body weight associated with pronounced tissue changes developed in rats transplanted with a fast-growing ascites hepatoma (Yoshida AH-130). The protein content showed an early and marked fall in the skeletal muscle, while in the liver it transiently increased 4 days after implantation then declined to values lower than in control animals. Protein loss in gastrocnemius muscle and liver resulted mainly from enhancement of protein catabolism (Tessitore L. et al., Biochem. J., 241: 153-158, 1987). In contrast to the tumour-bearing rats, in the pair-fed animals the initial body weight was maintained, while the protein mass decreased sharply in the liver and moderately in the gastrocnemius muscle. In host animals total plasma protein decreased during the period of tumour growth, while both triglycerides and total cholesterol markedly increased. Glucose remained unchanged even when overt cachexia had developed. The total free amino acid concentration in the plasma of tumour-bearing rats decreased slightly by day 4 and returned to values close to those of controls in the late stages of tumour growth. By contrast, in the pair-fed controls the plasma levels of triglycerides and particularly of total free amino acids and glucose decreased over the whole experimental period, whereas total protein and cholesterol were unchanged. Marked perturbations in the hormonal homeostasis developed early after tumour transplantation. The plasma levels of glucagon, corticosterone and catecholamines rose sharply, while those of insulin and thyroid hormones decreased. Furthermore, high plasma concentrations of prostaglandin E2 (PGE2) and tumour necrosis factor (TNF) were observed over the whole experimental period. IL-1-like activity, TNF and PGE2 were released in vitro from AH-130 cells. These data suggest that the systemic effects of AH-130 tumour on the host rat reflected the interplay of a complex network of factors, including classical hormones and cytokines, all of which likely concur in enhancing tissue protein catabolism.
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PMID:Humoral mediation for cachexia in tumour-bearing rats. 842 75

The immune and endocrine mediators that are released during sepsis (e.g., tumor necrosis factor [TNF] alpha, interleukin [IL]-1, IL-6, transforming growth factor [TGF] beta, prostaglandin [PG] E2, catecholamines, vasopressin, glucagon, insulin, and glucocorticoids) can produce inappropriate detrimental cellular responses contributing to exacerbation of septic injury. Examples of such sepsis-related inappropriate responses are: exaggerated hepatic acute-phase protein (APP) expression and release skeletal muscle insulin resistance, and suppressed T-lymphocyte proliferation. The studies discussed in this article present evidence that the generation of the sepsis-related hepatic, skeletal muscle, and T-lymphocyte responses emanate from alterations in intracellular Ca2+ (Ca2+i) homeostasis. In hepatocytes, there is indication of a sepsis-mediated increase in Ca2+ influx from the extracellular milieu leading to a sustained increase in the apparent resting cell Ca2+i concentration ([Ca2+]i) and its depressed elevation on stimulation with Ca2+-mobilizing hormones such as catecholamines and vasopressin. These Ca(2+)- related changes can affect not only the signaling pathways in which Ca2+i itself serves as a signaling component, but also the signaling systems turned on by other sepsis-induced agonists which may not be dependent on Ca2+ signaling. TGF-beta, IL-1, TNF alpha, and IL-6 activate a primarily protein kinase C (PKC)-dependent intracellular signal system for the elicitation of a normal hepatic APP response (APPR). The increased apparent basal [Ca2+]i in sepsis can hypersensitize PKC activation and thus lead to an exaggerated APPR. In the skeletal muscle, an evident increase in Ca2+ membrane flux during sepsis pointed to an increase in the basal [Ca2+]i resulting from a plausible cytokine-mediated overactivation of the voltage-sensitive Ca2+ channels. The increased basal [Ca2+]i can negatively modulate the insulin-mediated stimulation of GLUT4-dependent glucose transport despite the possibility that Ca2+i might not participate as a component in the insulin-receptor-regulated signaling pathway. Increased [Ca2+]i in skeletal myocytes can either directly promote the phosphorylation of GLUT4 or prevent its dephosphorylation, both of which effectively block insulin stimulation of glucose uptake, thereby contributing to insulin resistance. In T lymphocytes, septic injury appears to induce an attenuation in the mitogen and, thus, presumably a T-cell antigen receptor (TCR)-mediated elevation in [Ca2+]i without affecting the basal [Ca2+]i. This decrease in TCR-related Ca2+i mobilization evidently contributes to the suppression of T lymphocyte proliferation during sepsis, probably via an in vivo action of prostaglandin (PG) E2 on the T cells during sepsis. The blockade of PGE2 production after indomethacin administration to septic animals prevents alterations in both T-cell Ca2+i mobilization and proliferation. PGE2 probably acts through its second messenger, cyclic adenosine 3'5'-monophosphate, which can antagonize Ca2+i signaling in T cells.
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PMID:Alterations in calcium signaling and cellular responses in septic injury. 868 77

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