UNIPROT:P05231 - FACTA Search

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Query: UNIPROT:P05231 (interleukin-6)
23,907 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

Angiotensinogen has been identified as one of the acute-phase reactants. In vitro studies were carried out using the Reuber H35 hepatoma cell line to identify the species of cytokines contributing to the increased synthesis of angiotensinogen in the liver. Angiotensinogen secretion by H35 cells was maximally increased 4-fold by the addition of 10(-7) M dexamethasone. Under this condition, angiotensinogen secretion was further stimulated by B cell stimulatory factor 2/interleukin-6 (IL-6, 50 U/ml), but not by interleukin-1 or interferon-alpha. In the absence of glucocorticoid, IL-6 did not affect angiotensinogen secretion by H35 cells, indicating that the presence of glucocorticoid is required for the stimulatory activity of IL-6. These results suggest that IL-6 is a mediator responsible for the increased synthesis of angiotensinogen in the liver during acute inflammation.
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PMID:Angiotensinogen production by rat hepatoma cells is stimulated by B cell stimulatory factor 2/interleukin-6. 278 93

To understand the mechanisms responsible for lipopolysaccharide (LPS)-induced enhancement of angiotensinogen synthesis in the liver, studies were carried out in rats with repeated doses of LPS. The administration of sublethal dose (50 micrograms, i.p.) of LPS to rats resulted in increase in serum levels of tumor necrosis factor (TNF) and interleukin-6 (IL-6), which attained their maximal levels by 1 and 2-4h, respectively. Serum levels of angiotensinogen and alpha 2-macroglobulin, a typical acute-phase protein in the rat, were also increased by a primary LPS challenge, and their maximal levels for the formation of TNF and IL-6 were delayed with peaks at 12 and 48 h, respectively. Repeated i.p. administration of LPS (50 micrograms/d) for 5 consecutive days induced a hyporesponsiveness to its subsequent administration in terms of increasing serum TNF, IL-6 and alpha 2-macroglobulin. In these LPS-tolerant rats, either LPS-induced elevation of angiotensinogen concentration in serum or angiotensinogen mRNA levels in liver was completely eliminated. Angiotensinogen synthesis in rat hepatoma H4 cells was enhanced in vitro by the addition of sera which had been collected 2 or 4 h after a primary injection of LPS, while not by sera collected from LPS-pretreated rats after a secondary LPS exposure. These results indicate that LPS-induced enhancement of angiotensinogen synthesis in the liver is desensitized in rats after repetitive LPS exposure, presumably by the failure of LPS-induced IL-6 production.
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PMID:Endotoxin-induced enhancement of angiotensinogen synthesis in the liver: decreased response following repeated endotoxin exposure. 750 88

Angiotensinogen has been assumed to be an acute-phase protein, because some forms of acute inflammation, eg, the injection of lipopolysaccharide or cellite or partial hepatectomy, increased the hepatic synthesis of angiotensinogen. In addition, the well-characterized nephrectomy-induced stimulation of angiotensinogen was thought to represent an acute-phase reaction. To evaluate this hypothesis, we examined changes in angiotensinogen secretion by the isolated perfused rat liver after the systemic administration of turpentine or lipopolysaccharide as well as in response to nephrectomy or sham nephrectomy. Comparison was made with the secretion of two typical acute-phase proteins, alpha 1-acid glycoprotein and alpha 2-macroglobulin, and with the secretion of the negative acute-phase protein albumin. All forms of experimental surgery stimulated the secretion of both control acute-phase proteins several-fold. In contrast, the response of angiotensinogen was not uniform; lipopolysaccharide and bilateral nephrectomy stimulated secretion twofold to threefold, sham nephrectomy had no effect, and turpentine decreased the secretion to 30% of the control level. A similar inhomogeneity was found in an additional experiment performed to analyze the direct effects of interleukin-1 or interleukin-6 on the secretion of angiotensinogen by freshly isolated hepatocytes. Interleukin-6 increased but interleukin-1 decreased the mRNA and secretion of angiotensinogen, whereas both cytokines increased the secretion of both acute-phase proteins. Because of this nonuniform behavior of angiotensinogen, it is premature to classify angiotensinogen as an acute-phase protein until a specific function for angiotensinogen during acute inflammation is known.
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PMID:Angiotensinogen: an acute-phase protein? 750 96

The concentration of plasma angiotensinogen increases upon induction of inflammation. Studies were carried out using serum samples collected from mice and rats after injection of lipopolysaccharide (LPS) to determine whether interleukin-6 (IL-6) is a mediator responsible for the inflammation-induced increase of angiotensinogen synthesis in liver cells. Serum collected from mice or rats 2 and 4 hr after injection of LPS contained a factor that stimulated [35S]methionine incorporation into angiotensinogen newly synthesized by rat hepatoma H4IIEC3 (H4) cells. Assay of IL-6 using an IL-6-dependent murine hybridoma, MH60.BSF2 cells, showed the presence of IL-6-like activity in sera of mice or rats 2 and 4 hr after injection of LPS. Anti-mouse IL-6 monoclonal antibody completely inhibited not only the IL-6-like activity present in LPS-treated mouse serum but also the ability of the serum to stimulate angiotensinogen synthesis of H4 cells. These results suggest that increased synthesis of angiotensinogen in the liver after induction of inflammation is mediated by IL-6, a cytokine important in immune reactions and the hepatic acute-phase response.
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PMID:Interleukin-6 as a mediator responsible for inflammation-induced increase in plasma angiotensinogen. 842 13

In order to determine the activity of the renin-angiotensin system in the nephrotic syndrome, the plasma concentration of angiotensinogen was measured in rats with puromycin aminonucleoside (PA)-induced nephrosis using two different methods: a direct radioimmunoassay, which measures both angiotensinogen and des-angiotensin I-angiotensinogen, and an indirect assay, which measures angiotensin I liberated from angiotensinogen by excess renin. The plasma concentration of angiotensinogen as measured by the direct assay increased before the appearance of PA-induced hypoproteinemia or proteinuria and subsequently decreased to normal levels simultaneously with the appearance of proteinuria. The indirect assay of angiotensinogen also demonstrated an increased concentration of plasma angiotensinogen before the development of nephrosis, but the level decreased to below normal after the appearance of proteinuria. Both plasma renin concentration and renin activity also increased simultaneously with the increase in plasma angiotensinogen. The difference between the concentrations of plasma angiotensinogen determined by these methods increased before and during the early phase of PA-induced nephrosis, suggesting the increased consumption of angiotensinogen by renin during this period. Measurement of plasma corticosterone and serum interleukin-6 revealed that these circulating factors were not involved in the elevation of plasma angiotensinogen in rats with PA-induced nephrosis. These results indicate that the renin-angiotensin system is activated before the appearance of PA-induced nephrotic syndrome.
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PMID:Elevation of plasma angiotensinogen in rats with experimentally induced nephrosis. 844 57

Leukocyte infiltration and adhesion molecule activation play a central role in the pathogenesis of angiotensin II (Ang II)-induced end-organ damage in double transgenic rats (dTGR) harboring human renin and angiotensinogen genes. We tested the hypothesis that the immunosuppressive agent cyclosporine (CsA) protects against the Ang II-induced myocardial and renal damage in dTGR. Furthermore, we investigated the influence of CsA on interleukin-6 (IL-6) and inducible nitric oxide synthase (iNOS) expression and the DNA binding activity of transcription factor necrosis factor-kappaB (NF-kappaB). The 4-week-old rats were divided into 4 groups: (1) control dTGR (n=20), (2) dTGR plus CsA (5 mg/kg SC for 3 weeks, n=15), (3) normotensive Sprague-Dawley (SD) rats (n=10), and (4) SD rats plus CsA (n=8). In dTGR, CsA completely prevented cardiovascular death (0 of 15 versus 9 of 20), decreased 24-hour albuminuria by 90% and systolic blood pressure by 35 mm Hg, and protected against the development of cardiac hypertrophy. Whole blood CsA concentrations 24 hours after the last drug treatment were 850+/-15 ng/mL. Semiquantitative ED-1 and Ki-67 (a nuclear cell proliferation-associated antigen) scoring showed that CsA prevented perivascular monocyte/macrophage infiltration and prevented cell proliferation in the kidneys and hearts of dTGR, respectively. The beneficial effects of CsA were, at least in part, mediated by the suppression of IL-6 and iNOS expression. Electrophoretic mobility shift assay revealed that CsA regulated inflammatory response in part through the NF-kappaB transcriptional pathway. In contrast to dTGR, CsA increased blood pressure in normotensive SD rats by 10 mm Hg and had no effect on cardiac mass or 24-hour urinary albumin excretion. Perivascular monocyte/macrophage infiltration, IL-6, and iNOS expression or cell proliferation were not affected by CsA in SD rats. Our findings indicate that CsA protects against Ang II-induced end-organ damage and underscore the central role of vascular inflammatory response in the pathogenesis of myocardial and renal damage in dTGR. The beneficial effects of CsA in the kidney and heart are mediated, at least in part, by suppression of IL-6 and iNOS expression via NF-kappaB transcriptional pathway.
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PMID:Cyclosporin A protects against angiotensin II-induced end-organ damage in double transgenic rats harboring human renin and angiotensinogen genes. 1064 25

-Cardiotrophin-1, an interleukin-6-related cytokine, stimulates the Janus kinase/signal transducers and activators of transcription (JAK/STAT) pathway and induces cardiac myocyte hypertrophy. In this study, we demonstrate that cardiotrophin-1 induces cardiac myocyte hypertrophy in part by upregulation of a local renin-angiotensin system through the JAK/STAT pathway. We found that cardiotrophin-1 increased angiotensinogen mRNA expression in cardiac myocytes via STAT3 activation. Tyrosine phosphorylation of STAT3 by cardiotrophin-1 treatment resulted in STAT3 homodimer binding to the St-domain in the angiotensinogen gene promoter, which lead to promoter activation in a transient transfection assay. Cardiotrophin-1-induced STAT3 tyrosine phosphorylation and binding to the St-domain were suppressed by AG490, a specific JAK2 inhibitor, which also attenuated cardiotrophin-1-stimulated angiotensinogen promoter activity. Cardiotrophin-1 did not activate the angiotensinogen gene promoter that contained a substitution mutation within the St-domain. Finally, losartan, an angiotensin II type 1 receptor antagonist, significantly attenuated cardiotrophin-1-induced hypertrophy of neonatal rat cardiac myocytes. Angiotensin II is known to induce cardiac myocyte hypertrophy by activating the G-protein-coupled angiotensin II type 1 receptor. Our results suggest that upregulation of angiotensinogen and angiotensin II production contribute to cardiotrophin-1-induced cardiac myocyte hypertrophy and emphasize an important interaction between G-protein-coupled and cytokine receptors.
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PMID:Cardiotrophin-1 increases angiotensinogen mRNA in rat cardiac myocytes through STAT3 : an autocrine loop for hypertrophy. 1085 62

The circulating level of angiotensinogen (AGT) is dynamically regulated as an important determinant of blood pressure and electrolyte homeostasis. Because the mechanisms controlling the regulated expression of human angiotensinogen (hAGT) are unknown, we investigated the inducible regulation of the hAGT gene in well differentiated HepG2 cells. Interleukin-6 (IL-6) stimulation produced a 3.2-fold increase in hAGT mRNA peaking at 96 h after stimulation. Deletional mutagenesis of the hAGT promoter in transient transfection assays identified an IL-6 response domain between nucleotides -350 and -122 containing three reiterated motifs, termed human acute phase response elements (hAPREs). Although mutation of each site individually caused a fall in IL-6-inducible luciferase activity, mutation of all three sites was required to block the IL-6 effect. Electrophoretic mobility shift assay (EMSA), supershift, and microaffinity DNA binding assays indicate IL-6-inducible high-affinity binding of signal transducers and activators of transcription 1 and -3 (STAT1 and -3) to hAPRE1 and -3 but only low-affinity binding to hAPRE2. Expression of a dominant-negative form of STAT3, but not STAT1, produced a concentration-dependent reduction in IL-6-induced hAGT transcription and endogenous mRNA expression. These data indicate that STAT3 plays a major role in hAGT gene induction through three functionally distinct hAPREs in its promoter and suggest a mechanism for its up-regulation during the acute-phase response.
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PMID:Role of signal transducers and activators of transcription 1 and -3 in inducible regulation of the human angiotensinogen gene by interleukin-6. 1122 45

Enlarged fat cells exhibit modified metabolic capacities, which could be involved in the metabolic complications of obesity at the whole body level. We show here that sterol regulatory element-binding protein 2 (SREBP-2) and its target genes are induced in the adipose tissue of several models of rodent obesity, suggesting cholesterol imbalance in enlarged adipocytes. Within a particular fat pad, larger adipocytes have reduced membrane cholesterol concentrations compared with smaller fat cells, demonstrating that altered cholesterol distribution is characteristic of adipocyte hypertrophy per se. We show that treatment with methyl-beta-cyclodextrin, which mimics the membrane cholesterol reduction of hypertrophied adipocytes, induces insulin resistance. We also produced cholesterol depletion by mevastatin treatment, which activates SREBP-2 and its target genes. The analysis of 40 adipocyte genes showed that the response to cholesterol depletion implicated genes involved in cholesterol traffic (caveolin 2, scavenger receptor BI, and ATP binding cassette 1 genes) but also adipocyte-derived secretion products (tumor necrosis factor alpha, angiotensinogen, and interleukin-6) and proteins involved in energy metabolism (fatty acid synthase, GLUT 4, and UCP3). These data demonstrate that altering cholesterol balance profoundly modifies adipocyte metabolism in a way resembling that seen in hypertrophied fat cells from obese rodents or humans. This is the first evidence that intracellular cholesterol might serve as a link between fat cell size and adipocyte metabolic activity.
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PMID:Cholesterol, a cell size-dependent signal that regulates glucose metabolism and gene expression in adipocytes. 1127 95

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