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)

This study reports the findings of hepatic fibrosis and the accumulation of iron in the livers of 12 gerbils. The primary lesion was a haemorrhagic necrosis of the liver that was identical to that produced experimentally in the gerbil by administration of E. coli endotoxin lipopolysaccharide. The resulting extravasation of blood caused focal histiocytic reactions. The number of lesions increased with age, eventually resulting in a micronodular cirrhosis after 9 to 12 months owing to repeated episodes of endotoxin-induced haemorrhages in the liver. The accumulation of iron occurred in perisinusoidal cells, Kupffer cells and hepatocytes. The perisinusoidal cells were responsible for the subsequent hepatic fibrosis. The fibrosis associated with this condition appears to result from iron accumulation in the liver, following haemorrhage caused by endotoxin lipopolysaccharide. The gerbil is the first recorded rodent species to develop hepatic fibrosis in response to hepatic iron overload.
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PMID:Hepatic fibrosis and iron accumulation due to endotoxin-induced haemorrhage in the gerbil. 206 30

In genetic hemochromatosis (GH), iron overload affects mainly parenchymal cells, whereas little iron is found in reticuloendothelial (RE) cells. We previously found that RE cells from GH patients had an inappropriately high activity of iron regulatory protein (IRP), the key regulator of intracellular iron homeostasis. Elevated IRP should reflect a reduction of the iron pool, possibly because of a failure to retain iron. A defect in iron handling by RE cells that results in a lack of feedback regulation of intestinal absorption might be the basic abnormality in GH. To further investigate the capacity of iron retention in RE cells of GH patients, we used inflammation as a model system as it is characterized by a block of iron release from macrophages. We analyzed the iron status of RE cells by assaying IRP activity and ferritin content after 4, 8, and 24 hours of incubation with lipopolysaccharide (LPS) and interferon-gamma (IFN-gamma). RNA-bandshift assays showed that in monocytes and macrophages from 16 control subjects, IRP activity was transiently elevated 4 hours after treatment with LPS and IFN-gamma but remarkably downregulated thereafter. Treatment with NO donors produced the same effects whereas an inducible Nitric Oxide Synthase (iNOS) inhibitor prevented them, which suggests that the NO pathway was involved. Decreased IRP activity was also found in monocytes from eight patients with inflammation. Interestingly, no late decrease of IRP activity was detected in cytokine-treated RE cells from 12 GH patients. Ferritin content was increased 24 hours after treatment in monocytes from normal subjects but not in monocytes from GH patients. The lack of downregulation of IRP activity under inflammatory conditions seems to confirm that the control of iron release from RE cells is defective in GH.
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PMID:Response of monocyte iron regulatory protein activity to inflammation: abnormal behavior in genetic hemochromatosis. 951 58

Killing of intracellular Penicillium marneffei conidia is demonstrated in gamma interferon-lipopolysaccharide-activated human THP1 and mouse J774 cells. Iron overload significantly reduces the antifungal activity of macrophages. Likewise, exogenous iron enhances and iron chelators inhibit the extracellular growth of P. marneffei. These results suggest that iron availability critically affects immunity to and the pathogenicity of P. marneffei.
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PMID:Effects of iron on extracellular and intracellular growth of Penicillium marneffei. 1067 97

Considering that the development of hepatic lesions related to iron overload diseases might be a result of abnormally expressed hepatic genes, we searched for new genes up-regulated under the condition of iron excess. By suppressive subtractive hybridization performed between livers from carbonyl iron-overloaded and control mice, we isolated a 225-base pair cDNA. By Northern blot analysis, the corresponding mRNA was confirmed to be overexpressed in livers of experimentally (carbonyl iron and iron-dextran-treated mice) and spontaneously (beta(2)-microglobulin knockout mice) iron-overloaded mice. In addition, beta(2)-microglobulin knockout mice fed with a low iron content diet exhibited a decrease of hepatic mRNA expression. The murine full-length cDNA was isolated and was found to encode an 83-amino acid protein presenting a strong homology in its C-terminal region to the human antimicrobial peptide hepcidin. In addition, we cloned the corresponding rat and human orthologue cDNAs. Both mouse and human genes named HEPC are constituted of 3 exons and 2 introns and are located on chromosome 7 and 19, respectively, in close proximity to USF2 gene. In mouse and human, HEPC mRNA was predominantly expressed in the liver. During both in vivo and in vitro studies, HEPC mRNA expression was enhanced in mouse hepatocytes under the effect of lipopolysaccharide. Finally, to analyze the intracellular localization of the predicted protein, we used the green fluorescent protein chimera expression vectors. The murine green fluorescent protein-prohepcidin protein was exclusively localized in the nucleus. When the putative nuclear localization signal was deleted, the resulting protein was addressed to the cytoplasm. Taken together, our data strongly suggest that the product of the new liver-specific gene HEPC might play a specific role during iron overload and exhibit additional functions distinct from its antimicrobial activity.
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PMID:A new mouse liver-specific gene, encoding a protein homologous to human antimicrobial peptide hepcidin, is overexpressed during iron overload. 1111 32

Both desferrioxamine (DFO) and chloroquine can significantly reduce hepatic iron in experimental animals with iron overload by chelating iron from the low-molecular-weight pool or decreasing iron uptake by the transferrin-transferrin receptor cycle, respectively. However, no previous studies have investigated whether combination therapy of these two drugs would further decrease the tissue iron overload as well as iron-induced toxicity. Chloroquine administration, 15 mg/kg, 5x/week, to rats during the iron loading regime, 10 mg/kg, 3x/week for 4 weeks, significantly decreased both hepatic (54%) and macrophage iron content (24%). However when administered in combination with desferrioxamine, 10 mg/kg, 3x/week for 2 weeks at the cessation of iron loading, no further reduction of hepatic iron content was noted while the iron content of the macrophages significantly increased, possibly indicating the flux of ferrioxamine through these cells. Further studies are warranted to investigate the speciation of iron within these macrophages. Macrophages isolated from chloroquine-treated iron loaded rats showed a reduction in latent NFkappaB activation and a significant increase in lipopolysaccharide-stimulated nitrite release by comparison to these parameters in iron loaded macrophages. Co-administration of chloroquine and desferrioxamine normalised the latent activity of NFkappaB to that of control macrophages as well as increasing LPS-stimulated NO release towards control values. However, DFO alone did not have any significant effect upon either of these parameters. Such results may have important relevance for the reduced immune function of iron loaded macrophages isolated from thalassaemia patients receiving chelation therapy and their propensity to increased infection.
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PMID:Changes in function of iron-loaded alveolar macrophages after in vivo administration of desferrioxamine and/or chloroquine. 1262 Jun 71

The amount of iron within the cell is carefully regulated in order to provide an adequate level of micronutrient while preventing its accumulation and toxicity. Iron excess is believed to generate oxidative stress, understood as an increase in the steady-state concentration of oxygen radical intermediates. Nitric oxide (NO) is an inorganic free-radical gaseous molecule which has been shown over the last decade to play an unprecedented variety of roles in biological systems. The effect of nitrogen reactive species may explain the iron sequestration pattern that characterizes macrophages under inflammatory conditions. From a patho-physiological viewpoint, further studies are required to assess the usefulness of this mechanism to minimize formation and release of free radicals in diseased tissues. However, contrary to the deleterious effects of the reactive nitrogen oxide species formed from either NO/O(2) and NO/O(2)(-), it has been pointed out that NO shows antioxidant properties. A number of studies have described the complex relationships between iron and NO, but controversy remains as to the influence and significance of iron on inflammatory NO production. To explore the initial steps of the effects triggered by LPS administration in the presence of excess iron, male Wistar rats were treated with: lipopolysaccharide from Escherichia coli (serotype 0127:B8) (LPS); iron-dextran; or iron-dextran plus LPS and liver samples were taken after 6 h. EPR spectra of NO-Hb in the venous blood were determined at 77 K. Iron-dextran administered to rats intraperitoneally resulted predominantly in iron uptake by the liver Kupffer cells and led to an increased NO level in blood in the presence of LPS. Further studies will be required to assess the complex role of the Kupffer cells on iNOS induction and NO production.
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PMID:Nitric oxide and iron: effect of iron overload on nitric oxide production in endotoxemia. 1505 23

The antimicrobial peptide hepcidin appears to play a central role in the regulation of iron homeostasis. In intact animals, iron overload or the injection of lipopolysaccharide (LPS) stimulates transcription of HAMP, the gene that encodes hepcidin. In isolated hepatocytes, IL-6, an inflammatory cytokine the production of which is stimulated by LPS, up-regulates transcription of hepcidin. In contrast, iron has no stimulatory effect on hepcidin expression in isolated hepatocytes. There is apparently a signaling pathway, activated by iron, that is present in the intact animal but not in isolated hepatocytes. Studies in humans and mice have shown that this iron-dependent pathway requires the presence of Hfe, hemojuvelin, and probably transferrin receptor 2 (tfr-2). To determine whether activation of hepcidin transcription by IL-6 also requires Hfe and tfr-2, we have studied mice homozygous for targeted disruption of HFE, beta(2)-microglobulin, and for a truncating mutation of TFR-2. We show that these mutant mice react normally to injection of endotoxin and that their isolated hepatocytes react normally to IL-6. This indicates that the signaling pathway activated by IL-6 does not require either Hfe or tfr-2. Mice with disruption of the gene encoding IL-6 seem to have a blunted response to LPS, but the statistical significance of the small response documented is borderline. It is therefore not clear whether LPS stimulates secretion of cytokines other than IL-6 that may stimulate hepcidin transcription.
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PMID:The IL-6- and lipopolysaccharide-induced transcription of hepcidin in HFE-, transferrin receptor 2-, and beta 2-microglobulin-deficient hepatocytes. 1519 50

Mutations of hepcidin (HAMP) and hemo-juvelin (HJV) genes have been recently demonstrated to result in juvenile hemochromatosis. Expression of HAMP is regulated by iron status or infection, whereas regulation of HJV is yet unknown. Using quantitative real-time polymerase chain reaction, we compared expression of Hamp and Rgmc (the murine ortholog of HJV) in livers of mice treated with iron, erythropoietin, or lipopolysaccharide (LPS), as well as during fetal and postnatal development. Iron overload increased Hamp expression without effect on Rgmc mRNA. Erythropoietin decreased Hamp mRNA, but Rgmc expression was unchanged. Hamp mRNA level decreased after birth by 4 orders of magnitude, without significant changes in Rgmc expression. Administration of LPS elevated Hamp mRNA levels, while markedly decreasing hepatic Rgmc mRNA levels (to approximately 5% after 6 hours). The responses of Hamp and Rgmc were quite different and suggested that human HJV expression could be modulated by inflammation.
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PMID:Expression of Rgmc, the murine ortholog of hemojuvelin gene, is modulated by development and inflammation, but not by iron status or erythropoietin. 1531 77

Hepcidin, the iron hormone, is produced by the liver in response to iron and inflammation. Its synthesis during inflammation is triggered by cytokines, but the details of iron activation are obscure. We tested the role of Kupffer cells and macrophages by studying iron-loaded or inflamed mice with selective inactivation of Kupffer cells or the in vitro effect of conditioned human macrophages on hepcidin expression. Hepcidin messenger RNA (mRNA) expression was studied by Northern blot and reverse transcriptase polymerase chain reaction analysis in mice that were treated with 40 mg/kg gadolinium (III) chloride (GdCl(3)) as a Kupffer cell inactivating agent and subjected to inflammatory challenges with either lipopolysaccharide (LPS) and turpentine or iron overload by iron-dextran administration. Similar analyses were performed in human hepatoma cells (HepG2) cultured with medium from LPS- or iron-conditioned macrophages from blood donors or patients with HFE-linked hereditary hemochromatosis (HH). In vivo, LPS and particularly turpentine stimulated hepcidin mRNA expression, and this effect was prevented by the inactivation of Kupffer cells. Also, iron overload markedly upregulated hepatic hepcidin mRNA, but this activity persisted in spite of Kupffer cell blockade. In vitro, the medium of LPS-treated normal or hemocromatotic macrophages turned on hepcidin expression. On the contrary, medium of iron-manipulated macrophages, regardless of their HFE status, did not affect hepcidin mRNA steady-state levels. In conclusion, Kupffer cells are required for the activation of hepcidin synthesis during inflammation, and HH inflamed macrophages are capable of mounting a normal response, eventually leading to hepcidin stimulation. However, both Kupffer cells and human macrophages are dispensable for the regulatory activity exerted by iron on hepatic hepcidin.
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PMID:Kupffer cells and macrophages are not required for hepatic hepcidin activation during iron overload. 1572 60

The cysteine-rich peptide hepcidin is known to be an antimicrobial peptide and iron transport regulator that has been found in both fish and mammals. Recently, we found two different types (designated Hep-JF1 and Hep-JF2) of hepcidin cDNA in the Japanese flounder, Paralichthys olivaceus, by expressed sequence tag analysis. The identity of amino acid sequences between Hep-JF1 and Hep-JF2 was 51%. The Hep-JF1 and Hep-JF2 genes both consist of three exons and two introns, and both exist as single copies in the genome. The predicted mature regions of Hep-JF1 and Hep-JF2 have six and eight Cys residues, respectively. The first Cys residue of Hep-JF1 was deleted and the second was replaced with Gly. The number and positions of Cys residues in Hep-JF2 are the same as they are in human Hep. Hep-JF1 is specifically expressed in liver while the expression of Hep-JF2 was detected from gill, liver, heart, kidney, peripheral blood leucocytes, spleen and stomach. Gene expression of Hep-JF1 in liver decreased during experimental iron (iron-dextran) overload. Expression of Hep-JF1 in liver was decreased by injecting fish with iron-dextran and increased by injecting lipopolysaccharide. Iron overload did not significantly affect expression of Hep-JF2 in liver but it did increase expression of Hep-JF2 in kidney. Lipopolysaccharide injection increased expression of Hep-JF2 in both liver and kidney. In liver, some cells expressed both Hep-JF1 and Hep-JF2 while some other cells expressed just one of them. Synthesized Hep-JF2 peptide showed antimicrobial activity, while synthesized Hep-JF1 peptide did not against several bacteria including fish-pathogenic bacteria used in this study.
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PMID:Two different types of hepcidins from the Japanese flounder Paralichthys olivaceus. 1621 56

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