UNIPROT:P43026 - FACTA Search

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Query: UNIPROT:P43026 (lipopolysaccharide)
62,215 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In different cardiovascular disease states, oxidative stress decreases the bioavailability of endothelial NO, resulting in endothelial dysfunction. An important molecular source of reactive oxygen species is the enzyme family of NAD(P)H oxidases (Nox). Here we provide evidence that the vascular Nox isoforms Nox1 and Nox4 appear to be involved in vascular oxidative stress in response to risk factors like angiotensin II (Ang II) in vitro as well as in vivo. Nox mRNA and protein levels were quantified by real-time RT-PCR and Western blotting, respectively. Nox1 and Nox4 were expressed in the vascular smooth muscle cell (VSMC) line A7r5 and aortas and kidneys of rats. Upon exposure of A7r5 cells to Ang II (1 microM, 4 h), Nox1 and Nox4 mRNA levels were increased 6-fold and 4-fold, respectively. Neither the vasoconstrictor endothelin 1 (up to 500 nM, 1-24 h) nor lipopolysaccharide (up to 100 ng/ml, 1-24 h) had any effect on Nox1 and Nox4 expression in these cells. Consistent with these observations made in vitro, aortas and kidneys of transgenic hypertensive rats overexpressing the Ren2 gene [TGR(mRen2)27] had significantly higher amounts of Nox1 and Nox4 mRNA and of Nox4 protein compared to tissues from normotensive wild-type animals. In conclusion, Nox4 and Nox1 are upregulated by the renin-angiotensin system. Increased superoxide production by upregulated vascular Nox isoforms may diminish the effectiveness of NO and thus contribute to the development of vascular diseases. Nox1 and Nox4 could be targeted therapeutically to reduce vascular reactive oxygen species production and thereby increase the bioavailability of NO.
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PMID:Upregulation of the vascular NAD(P)H-oxidase isoforms Nox1 and Nox4 by the renin-angiotensin system in vitro and in vivo. 1172 18

The present study was designed to clarify the role of angiotensin II (Ang II) in modulating renal tumor necrosis factor (TNF)-alpha and interleukin-6 (IL-6) production and to investigate the effect of one dose of Ang II inhibitor on cytokines production following lipopolysaccharide (LPS) to cause endotoxemia. Two studies were performed: 1) Ang II was infused intravenously at a rate of 0.2 microg/kg per minute for 4 h in rats and then kidneys were collected to assay TNF-alpha and IL-6 mRNA levels; 2) Four-week-old Wistar rats pre-treated with angiotensin-converting enzyme inhibitor, enalapril, or type I Ang II-receptor antagonist, TCV-116, were injected with LPS (0.1, 0.5, 1.0 mg, i.p.), and then 2 or 4 h later, kidneys were collected to assay TNF-alpha, IL-6, renin and angiotensinogen mRNA levels. After a 4-h intravenous infusion of Ang II, renal TNF-alpha or IL-6 mRNA level significantly increased 1.9-fold or 2.1-fold (each P<0.05) to the control level, respectively. LPS stimulated TNF-alpha, IL-6 and angiotensinogen mRNA levels in the kidney but in rats given enalapril or TCV-116, LPS-induced IL-6 and TNF-alpha mRNA levels were completely suppressed (each P<0.05). This suggests that a single dose of renin-angiotensin system inhibitor suppressed renal IL-6 and TNF-alpha production and may prevent cytokine-induced renal damage during endotoxemia.
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PMID:Suppression of endotoxin-induced renal tumor necrosis factor-alpha and interleukin-6 mRNA by renin-angiotensin system inhibitors. 1192 13

In bovine coronary artery segments, peroxynitrite inhibits prostacyclin (PGI2) synthase by tyrosine nitration. Using this pharmacological model, we show that a 1 h exposure of bovine coronary artery segments to endotoxin (lipopolysaccharide [LPS]) inhibits the relaxation phase following angiotensin II (Ang II) stimulation and causes a vasospasm that can be suppressed by a thromboxane A2 (TxA2) receptor blocker. In parallel, PGI2 synthesis decreases in favor of prostaglandin E2 formation. Immunoprecipitation and costaining with an anti-nitrotyrosine antibody identified PGI2 synthase as the main nitrated protein in the endothelium. All effects of LPS could be prevented in the presence of the nitric oxide (NO) synthase inhibitor Nomega-mono-methyl-L-arginine and polyethylene-glycolated Cu/Zn- superoxide dismutase. Thus, the early phase of endothelial cell activation in bovine coronary arteries by inflammatory agents proceeds by a protein synthesis-independent priming process for a source of superoxide that we tentatively attribute to xanthine oxidase. Upon receptor activation, Ang II stimulates NO and superoxide production, resulting in a peroxynitrite-mediated nitration and inhibition of PGI2 synthase. The remaining 15-hydroxy-prostaglandin 9,11-endoperoxide (PGH2) first activates the TxA2/PGH2 receptor and then is converted to prostaglandin E2 (PGE2) by smooth muscle cells. PGE2 together with a lack of NO and PGI2 is known to promote the adhesion of white blood cells and their immigration to the inflammatory locus.
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PMID:Endothelial cell activation by endotoxin involves superoxide/NO-mediated nitration of prostacyclin synthase and thromboxane receptor stimulation. 1267 Aug 82

We have tested the hypothesis that chronic inflammatory stress results in changes in sympathoadrenal and renin-angiotensin-aldosterone responses to novel stressors. Repeated treatment of rats with increasing doses of lipopolysaccharide (LPS) resulted in a decrease of plasma adrenaline and aldosterone as well as in renin activity (angiotensin I) responses compared to those after acute administration. Repeated LPS administration was associated with decreased plasma aldosterone responses to a different stressor (immobilization) in spite of preserved or even elevated responses of plasma renin activity and catecholamines. These alterations may contribute to the development of cardiovascular complications during chronic inflammatory states.
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PMID:Insufficient activation of adrenocortical but not adrenomedullary hormones during stress in rats subjected to repeated immune challenge. 1451 67

Numerous studies have described regulatory factors and sequences that control transcriptional responses in vitro. However, there is a paucity of information on the qualitative and quantitative regulation of heterologous promoters using transgenic strategies. In order to investigate the physiological regulation of human plasminogen activator inhibitor type-1 (hPAI-1) expression in vivo compared to murine PAI-1 (mPAI-1) and to test the physiological relevance of regulatory mechanisms described in vitro, we generated transgenic mice expressing enhanced green fluorescent protein (EGFP) driven by the proximal -2.9 kb of the hPAI-1 promoter. Transgenic animals were treated with Ang II, TGF-beta1 and lipopolysaccharide (LPS) to compare the relative activation of the human and murine PAI-1 promoters. Ang II increased EGFP expression most effectively in brain, kidney and spleen, while mPAI-1 expression was quantitatively enhanced most prominently in heart and spleen. TGF-beta1 failed to induce activation of the hPAI-1 promoter but potently stimulated mPAI-1 in kidney and spleen. LPS administration triggered robust expression of mPAI-1 in liver, kidney, pancreas, spleen and lung, while EGFP was induced only modestly in heart and kidney. These results indicate that the transcriptional response of the endogenous mPAI-1 promoter varies widely in terms of location and magnitude of response to specific stimuli. Moreover, the physiological regulation of PAI-1 expression likely involves a complex interaction of transcription factors and DNA sequences that are not adequately replicated by in vitro functional studies focused on the proximal -2.9 kb promoter.
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PMID:Tissue- and agonist-specific regulation of human and murine plasminogen activator inhibitor-1 promoters in transgenic mice. 1462 74

Angiotensin II (ANG II), a bioactive peptide that plays important roles in blood-pressure and body-fluid regulation, has recently been reported to be involved in normal thermoregulation and fever. In the case of thermoregulation, ANG II lowers body temperature when administered centrally or systemically (i.e. "exogenous" ANG II acts as a hypothermia-inducing agent). In contrast, "endogenous" ANG II is involved both in heat-loss responses in a hot environment and in thermogenesis in the cold. It therefore seems likely that endogenous ANG II is involved in maintaining body temperature at the set-point. In the case of fever, it has been reported that endogenous brain ANG II and its type 1 receptor mediate or modulate the fever induced by "restraint stress". At the final step in "pyrogen-induced" fever, brain ANG II facilitates the fever induced by prostaglandin E2 (PGE2) through its action on the type 2 receptor, whereas at its first step the lipopolysaccharide (LPS, 2 microg/kg, i.v.)-induced production of pyrogenic cytokines [such as interleukin-1 (IL-1)] involves an action of endogenous ANG II through its type 1 receptor. On the other hand, it is well known that a very high dose of LPS (50-5000 microg/kg) injected systemically induces hypothermia in rodents. This hypothermia is presumably initiated by tumor necrosis factor (TNF). Since ANG II contributes to the LPS-induced production of cytokines such as IL-1beta, as described above, it is possible that the generation of TNF by LPS involves an action of ANG II, too, and that this TNF production leads to the LPS-induced hypothermia. Together, these findings suggest that ANG II and its receptors make a number of contributions to normal thermoregulation, to fever, and to the hypothermia in systemic inflammation.
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PMID:Angiotensin II: its effects on fever and hypothermia in systemic inflammation. 1476 80

Angiotensin II (Ang II) type 1 receptor (AT1R) has been confirmed to confer renoprotection in the progressive, immune-mediated nephritis in animal models as well as in humans. However, the relative contributions of direct AT1R blockade, indirect counteractivation of Ang II type 2 receptor (AT2R), or both, to renoprotection through AT1R antagonism remains to be clarified. Immunohistochemical studies in the nephritic kidney revealed that tubular epithelial cells and infiltrating immune cells were positive for AT1R and AT2R. In the present study, we investigated the action of Ang II on both receptors on immune cells. A subpopulation of lipopolysaccharide-activated splenic lymphocytes (mixed lymphocyte populations) was positive for AT1R and AT2R. Ang II alone could not induce gene expression of a pro-inflammatory chemokine JE or a pro-fibrotic cytokine transforming growth factor-beta1 in those cells. However, Ang II could significantly suppress the expression of both genes in those cells under AT1R blockade, and this action was mediated through AT2R. Conversely, the pro-inflammatory/pro-fibrotic gene expression could be enhanced by AT2R blockade, and this was mediated through AT1R. AT1R and AT2R expressed in activated immune cells can modulate pro-inflammatory and pro-fibrotic reactions reciprocally. In advanced immune-mediated nephritic kidneys, AT1R antagonism likely confers renoprotection via activation of AT2R.
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PMID:Angiotensin II type 1 and type 2 receptors reciprocally modulate pro-inflammatory/ pro-fibrotic reactions in activated splenic lymphocytes. 1514 59

The adrenal gland secretes several cytokines, and cytokines modulate steroid secretion by this gland. In this study, a survey of cytokine production by H295R human adrenocortical cells demonstrated that these cells secreted IL-2, IL-4, IL-8, IL-10, IL-13, and TNFalpha but not IL-5, IL-12, or interferon-gamma. IL-8 was the IL secreted at higher concentration. IL-8 secretion, its regulation, and role in steroidogenesis were further studied. Secreted ILs and steroids were measured by ELISA in cell culture supernatant. IL-8 mRNA was quantified by real-time RT-PCR. H295R cells and human adrenal gland expressed IL-8 mRNA. Angiotensin II, potassium, endothelin-1, IL-1alpha, IL-1beta, TNFalpha, and Escherichia coli lipopolysaccharide dose-dependently increase IL-8 secretion by H295R cells after 24 h incubation. IL-6 had no effect on IL-8 secretion. Angiotensin II time-dependently increased IL-8 secretion by H295R cells up to 48 h. Angiotensin II caused a biphasic increase in IL-8 mRNA expression with a peak 6 h after stimulation. TNFalpha synergized angiotensin II, potassium, and IL-1alpha-mediated IL-8 secretion. IL-8 did not modify aldosterone or cortisol secretion by H295R cells under basal or stimulated (angiotensin II or potassium) conditions. In conclusion, it is demonstrated for the first time that human adrenal cells expressed and secreted IL-8 under the regulation of angiotensin II, potassium, endothelin-1, and immune peptides. Adrenal-secreted IL-8 is one point of convergence between the adrenal gland and the immune system and may have relevance in physiological and pathophysiological conditions associated with increased levels of aldosterone secretagogues and the immune system.
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PMID:Interleukin-8 synthesis, regulation, and steroidogenic role in H295R human adrenocortical cells. 1626 56

Angiotensin II (ANG II) activation of the angiotensin type 1 (AT1) receptor facilitates the production of brain interleukin-1beta (IL-1beta) and contributes to the induction of the fever following the intracerebroventricular (i.c.v.) injection of lipopolysaccharide (LPS). The purpose of the present study was to investigate whether proinflammatory transcription factors [nuclear factor-kappaB (NF-kappaB) and activator protein-1 (AP-1)] contribute to the ANG II-dependent production of cytokines within the brain. Interestingly, we found that a single i.c.v. injection of LPS had no effect on NF-kappaB and AP-1 activities in the hypothalamus, hippocampus, and cerebellum at either 1 or 3 h post-injection (except for a decrease in hypothalamic AP-1 activity at 1 h). Furthermore, both an angiotensin-converting-enzyme (ACE) inhibitor and an AT1 receptor antagonist enhanced (rather than reduced) the NF-kappaB and AP-1 activities in the hippocampus and/or cerebellum of rats given LPS. In contrast, an i.c.v. injection of ANG II increased the NF-kappaB activity in the hypothalamus. These results suggest that while "endogenous" ANG II exerts (via AT1 receptors) inhibitory effects on the activation of transcription factors in the brain of rats given LPS, a large dose of exogenous ANG II produces effects opposite to those induced by the presumably small amount of endogenous ANG II released locally by LPS. Our results seem not to support the idea that NF-kappaB and AP-1 play key roles in the ANG II-induced enhancement of the production of proinflammatory cytokines that is induced by LPS in the rat's brain.
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PMID:Effects of central injection of angiotensin-converting-enzyme inhibitor and angiotensin type 1 receptor antagonist on the brain NF-kappaB and AP-1 activities of rats given LPS. 1635 91

Hyperactivation of systemic renin-angiotensin system (RAS) during sepsis is well documented. However, the behavior of intrarenal RAS in the context of endotoxemia is yet to be defined. The present study evaluates the direct effect of Escherichia coli lipopolysaccharide (LPS) on immortalized human mesangial cell (HMC) RAS. Quiescent HMC were incubated with vehicle or LPS (1-100 microg/ml), and levels of angiotensin I and II (Ang I and II) and their metabolites were analyzed by high-performance liquid chromatography. In addition, angiotensin-converting enzyme (ACE) and renin activity were also investigated. Cell lysate and extracellular medium levels of Ang II were rapidly reduced (1 h) in a time- and concentration-dependent manner, reaching a significant -9 fold-change (P<0.001) after 3 h of LPS incubation. Similar results were obtained for Ang I levels (-3 fold-change, P<0.001). We ruled out Ang I and II degradation, as levels of their metabolic fragments were also significantly decreased by LPS. ACE activity was slightly increased following LPS incubation. On the other hand, renin activity was significantly inhibited, as Ang I concentration elevation following exogenous angiotensinogen administration was blunted by LPS (-60% vs vehicle, P<0.001). Renin and angiotensinogen protein levels were not affected by LPS according to Western blot analysis. Taken together, these data demonstrate for the first time that LPS significantly downregulates HMC RAS through inhibition of renin or renin-like activity. These findings are potentially related to the development of and/or recovery from acute renal failure in the context of sepsis.
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PMID:Escherichia coli lipopolysaccharide inhibits renin activity in human mesangial cells. 1652 46

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