Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

Heme oxygenase (HO) catalyzes the rate-limiting step in the degradation of heme to bilirubin. HO-1 is highly induced by heme, its major substrate, and nonheme products, including metal ions and hormones. Interest in HO-1 has been stimulated recently by observations that HO-1 is also highly induced in response to oxidative stress in vitro. The physiologic significance of HO-1 induction following oxidant injury in vivo, however, is poorly understood. In a rat model of lipopolysaccharide endotoxin (LPS)-induced lung injury and sepsis, we demonstrate that the lung responds to LPS by expressing high levels of HO-1 mRNA and enzyme activity. We hypothesize that this HO-1 induction could play a critical role in the lung's defense against LPS. Pretreatment of rats with hemoglobin, a potent inducer of HO-1, resulted in HO-1 induction and more importantly provided complete protection against subsequent lethal endotoxemia (100% survival). Tin protoporphyrin, a competitive inhibitor of HO, blocked this protective effect of hemoglobin and rendered the rats more susceptible to a lethal dose of LPS. Taken together, these data strongly implicate HO-1 in playing an important role in the defense against endotoxic shock, with potential therapeutic implications.
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PMID:Hemoglobin provides protection against lethal endotoxemia in rats: the role of heme oxygenase-1. 757 96

Heme oxygenase-1 (HO-1) is a stress-response protein, the expression of which is transcriptionally regulated by agents that cause oxidative stress. We have previously shown that lipopolysaccharide (LPS)-induced HO-1 gene transcription in RAW 264.7 macrophage cells is mediated by a distal enhancer called SX2, located 4 kb upstream from the HO-1 transcription initiation site (Am. J. Respir. Cell Mol. Biol. 1995;13:387-398). We have recently identified a second distal enhancer, called AB1, located 6 kb upstream from the SX2 distal enhancer (J. Biol. Chem. 1995;270:11977-11984). Here we report the extension of our studies to investigate whether the AB1 distal enhancer and/or other potential regulatory elements in the entire 5' distal flanking sequences (11-kb region) of the HO-1 gene may also mediate HO-1 gene transcription in response to LPS. Using deletional analysis, we found that the AB1 enhancer also mediates LPS-induced HO-1 gene transcription. Mutational analysis of the AB1 enhancer and electrophoretic-mobility-shift assays of nuclear extracts from LPS-treated cells further demonstrated that the transcription factor activator protein-1 (AP-1) is critical for AB1-mediated HO-1 gene activation by LPS. We also found increased expression of AP-1 family members c-fos and c-jun by Northern blot analyses after treatment with LPS. Further, we observed that LPS-treated RAW 264.7 cells produced high levels of reactive oxygen intermediates (ROI) as measured through flow-cytometric analysis of dichlorofluoroscein (DCF)-stained cells. Treatment of cells with the antioxidants N-acetyl-L-cysteine (NAC) and dimethyl sulfoxide (DMSO) not only blunts LPS-induced production of ROI, but also significantly attenuates LPS-induced HO-1 messenger RNA (mRNA) expression and gene transcription. Taken together, these data suggest that LPS regulates HO-1 gene transcription in part by inducing the production of ROI, which initiate signal-transduction pathway(s) leading to the activation of AP-1-dependent HO-1 gene transcription.
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PMID:Transcriptional activation of the HO-1 gene by lipopolysaccharide is mediated by 5' distal enhancers: role of reactive oxygen intermediates and AP-1. 947 10

Heme oxygenase (HO) catalyzes the oxidative cleavage of the alpha-mesocarbon of Fe-protoporphyrin-IX yielding equimolar amounts of biliverdin-IXa, iron, and carbon monoxide. The HO-system consists of two isoenzymes, namely HO-2 and the inducible isoform HO-1, also referred to as heat shock protein (hsp) 32. Although both parenchymal and non-parenchymal liver cells participate in heme metabolism, the expression pattern of the isoenzymes in normal and stress exposed liver is unknown. To study this, rats underwent either endotoxin (lipopolysaccharide [LPS]) challenge, hemorrhagic hypotension, glutathione (GSH) depletion, or cobalt chloride injection, all known to provoke oxidative stress. HO-2 messenger RNA (mRNA) and protein were constitutively expressed in hepatocytes, Kupffer/endothelial-, and stellate (Ito-) cell enriched fractions. Although both non-parenchymal cell fractions expressed HO-1 transcripts, HO-1 immunoreactive protein was restricted to Kupffer cells in the normal liver. In contrast to HO-2, a significant increase in HO-1 on the whole organ level was noted by hemorrhagic hypotension, GSH depletion, and cobalt chloride injection. However, the distinct stress models led to a strikingly different cell-type specific and sublobular expression pattern of HO-1 gene expression. HO-1 was inducible in sinusoidal lining cells (hemorrhagic hypotension, LPS challenge), in periportal (cobalt chloride), or pericentral (GSH depletion, hemorrhagic hypotension) hepatocytes. The blockade of protein translation before hemorrhage by cycloheximide reduced upregulation of HO-1/hsp32 mRNA significantly (65.4% reduction, P < .05), whereas the inducibility of hsp70 transcript was maintained. In addition to transcriptional regulation, HO-1 seems to be subject to posttranscriptional control in particular in non-parenchymal cells.
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PMID:Expression pattern of heme oxygenase isoenzymes 1 and 2 in normal and stress-exposed rat liver. 950 Jul 14

Heme oxygenase (HO)-1 generates CO, a gas with vasodilatory properties, during heme metabolism. HO-1 is expressed highly in vascular tissue after endotoxin stimulation, and generation of CO through the HO-1 pathway contributes to the hemodynamic compromise of endotoxic shock. Shock related to endotoxemia is an immune-mediated process that involves the generation of proinflammatory cytokines such as interleukin (IL)-1beta. Because transforming growth factor (TGF)-beta1 is a modulator of immune-mediated inflammatory responses and it blocks the hypotension of endotoxic shock, we determined whether TGF-beta1 could be used to reduce expression of HO-1 in vascular tissue and smooth muscle cells. In a rat model of endotoxic shock, lipopolysaccharide-induced HO-1 mRNA and protein expression was reduced by TGF-beta1 in highly vascularized tissue, such as heart and lung, by Northern and Western analysis. Furthermore, TGF-beta1 downregulated HO-1 mRNA after its induction by IL-1beta in vascular smooth muscle cells in culture. TGF-beta1 also decreased HO-1 but not HO-2 protein expression in these cells. TGF-beta1 decreased HO enzyme activity induced in IL-1beta treated vascular smooth muscle cells to a level not different from that in vehicle-treated cells. These studies suggest that this downregulation of HO-1 mRNA and protein expression and decrease in IL-1beta-induced HO enzyme activity may contribute to the beneficial effect of TGF-beta1 on endotoxic shock.
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PMID:Induction of heme oxygenase-1 during endotoxemia is downregulated by transforming growth factor-beta1. 972 96

Heme oxygenase (HO)-1 expression is increased by forms of oxidative stress that also induce ferritin. Even though this could result from release of iron by heme degradation, we hypothesized that ferritin expression in the lung after endotoxin [lipopolysaccharide (LPS)] would occur independently of HO-1 because iron sequestration is an important response to infection. We tested this hypothesis by instilling saline or LPS (1 mg) into lungs of rats and measuring ferritin expression, HO-1 expression and activity, and HO-1 and ferritin mRNAs at different times. Lungs were also inflation fixed for immunohistochemistry for HO-1 and ferritin. Studies were performed with and without the HO inhibitor tin protoporphyrin. Ferritin and HO-1 labeling were minimal (macrophages only) in control lungs. By 4 h after LPS instillation, ferritin staining was present in bronchial epithelium and macrophages, became diffuse at 16 h, and was nearly gone by 48-72 h. HO-1 was detectable in macrophages 4 and 16 h after LPS instillation, increased in macrophages and bronchial epithelium at 24 h, and diffusely increased in bronchial epithelium and the alveolar region at 48-72 h. Lung ferritin content increased significantly by 4 h and peaked at 16 h before declining. HO-1 protein was present by Western blot in control lung, stable at 4 h, and increased by 24 h after LPS instillation, whereas HO enzyme activity had increased by 4 h after LPS instillation. After complete inhibition of HO enzyme activity with tin protoporphyrin, ferritin increased threefold at 4 h and sixfold at 24 h after LPS instillation. HO-1 mRNA increased by 4 h and was sustained at 24 h, whereas ferritin mRNA did not change after LPS instillation. These results indicate that intratracheal LPS rapidly induces ferritin protein in the lung independently of its mRNA synthesis or HO enzyme activity. LPS induces HO-1 mRNA, which is followed by increased expression of protein.
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PMID:Induction of ferritin and heme oxygenase-1 by endotoxin in the lung. 972 54

Nitric oxide (NO) production in macrophages by inducible nitric oxide synthase (NOS2) has multiple tissue damaging effects and is involved in the pathogenesis of inflammation and graft rejection. Haem oxygenase (HmOx) is the enzyme which degrades haem. Its inducible isoform, HmOx1, was recently shown to increase cellular resistance against oxidative stress and to decrease inflammation and graft rejection. Since haem is an essential cofactor for NOS2 activity, we investigated the effects of HmOx1-induction upon NO secretion in macrophages. We induced HmOx1 in BALB/c bone-marrow-derived macrophages by short-term exposure to haemin (20 micromol/l, 30 min); then we incubated them for 24 h to allow maximal expression of HmOx1 activity. Next, we activated the macrophages with lipopolysaccharide (LPS) and measured their NO production and their NO-dependent cytotoxicity against P815 cells. We found that HmOx induction 24 h before LPS activation in mouse macrophages suppresses their production of NO, while HmOx inhibition (with zinc protoporphyrin) increases NO secretion. NOS2 inhibition is reflected by the decrease of macrophage NO-dependent cytotoxicity against the P815 targets. We therefore propose that HmOx1 is a physiological inhibitor of NOS2 in activated macrophages because it decreases haem availability for NOS2 synthesis. NOS2 inhibition may explain the antinflammatory effects of HmOx induction which could also be used therapeutically in situations when NO hyperproduction leads to cytotoxic effects such as inflammation or transplant rejection.
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PMID:Nitric oxide synthase inhibition by haem oxygenase decreases macrophage nitric-oxide-dependent cytotoxicity: a negative feedback mechanism for the regulation of nitric oxide production. 985 35

Heme-binding protein 23 (HBP23) is a cytosolic protein that binds the prooxidant heme with high affinity and has been implicated in the cellular protection against reactive oxygen species (ROS). Because lipopolysaccharide (LPS) stimulates macrophages to produce large amounts of ROS the gene expression of HBP23 was analyzed during treatment with LPS in cultured rat Kupffer cells (KC). HBP23 was constitutively expressed in KC and up-regulated on the protein and messenger RNA (mRNA) level by LPS with a time response distinct from that of TNFalpha, but in coordination with that of heme oxygenase-1 (HO-1), which is the inducible isoform of the rate-limiting enzyme of heme degradation. A parallel up-regulation of HBP23 and HO-1 mRNA by LPS was also observed in cultured peritoneal macrophages and peripheral blood monocytes. HBP23 mRNA induction by LPS occurred on the transcriptional level as indicated by blocking with actinomycin D. The induction of HBP23 mRNA expression by LPS was preceded by that of the inducible nitric oxide synthase (iNOS) and the production of nitrite in KC. Treatment with the NOS inhibitor NG-monomethyl L-arginine prevented HBP23 mRNA induction by LPS, which was reversed by an excess of L-arginine. Both the nitric oxide (NO)-donor S-nitroso-N-acetylpenicillamine and the peroxynitrite donor SIN-1 increased HBP23 mRNA expression. HBP23 mRNA induction by LPS was down-regulated by interleukin 10 and transforming growth factor beta1 with a NO-independent mechanism. LPS-stimulated KC exhibited marked protection against the cytotoxicity mediated by H2O2. The data suggest that NO and peroxynitrite are major mediators of the LPS-dependent up-regulation of HBP23 in KC.
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PMID:Up-regulation of heme-binding protein 23 (HBP23) gene expression by lipopolysaccharide is mediated via a nitric oxide-dependent signaling pathway in rat Kupffer cells. 1038 47

Heme oxygenase catalyzes the metabolism of heme to biliverdin, free iron, and carbon monoxide (CO), which has been shown to be an important neuromodulatory agent. Recently, it has been demonstrated that lipopolysaccharide (LPS) can induce the enzyme heme oxygenase in glial cells. Therefore, the present study was designed to test the hypothesis that central CO plays a role in LPS-induced fever. Colonic body temperature (T(b)) was measured in awake, unrestrained rats (basal T(b) = 36.8 +/- 0.2 degrees C). Intracerebroventricular injection of zinc deuteroporphyrin 2,4-bis glycol (ZnDPBG; 75 nmol), a heme oxygenase inhibitor, caused no significant change in T(b), indicating that the central heme oxygenase pathway plays no tonic role in T(b) under the experimental conditions used. Intraperitoneal injections of LPS (50-100 microgram/kg) evoked dose-dependent increases in T(b). Intracerebroventricular injection of ZnDPBG in febrile rats attenuated LPS-induced fever (thermal index with ZnDPBG = 1.1 +/- 0. 2 degrees C, thermal index with vehicle = 2.3 +/- 0.4 degrees C), suggesting that the central heme oxygenase pathway plays a role in fever generation. The antipyretic effect of ZnDPBG could be reversed by intracerebroventricular administration of heme-lysinate or CO-saturated saline. Collectively, our data indicate that CO arising from heme oxygenase may play an important role in fever generation by acting on the central nervous system.
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PMID:Carbon monoxide as a novel mediator of the febrile response in the central nervous system. 1044 57

Severe sepsis is known to result in multiple organ dysfunction syndrome (MODS), which is thought to be mediated by oxidative stress, as a result of excessive systemic inflammation. Heme Oxygenase-1 (HO-1), the rate limiting enzyme in heme catabolism, is also known as HSP32. HO-1 is induced not only by its substrate heme but also by oxidative stress. We investigated gene expression of HO-1 and physiological significance of HO-1 induction in a rat model of septic MODS induced by intraperitoneal injection of bacterial lipopolysaccharide (LPS). Following administration of LPS, HO-1 mRNA was significantly induced in the liver, lung and kidney in an organ-specific manner. Hepatic HO-1 induction appears to be mediated by an increase in hepatic free heme concentration. Inhibition of HO activity by tin mesoporphyrin significantly exacerbated lung injury. These results suggest that HO-1 induction may play an important role in conferring protection on cells from oxidative damage not only by catalyzing heme, a pro-oxidant, but also by producing bilirubin, an anti-oxidant. Furthermore, HO-1 mRNA is induced markedly in the buffy coat of the blood at 3 h after LPS administration, coinciding with the increase in serum IL-6 level, suggesting that HO-1 may be one of the key markers of septic MODS.
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PMID:[Heat shock response in a rat model of septic multiple organ dysfunction syndrome]. 1062 43

Heme oxygenase (HO)-1 catalyzes the conversion of heme to biliverdin, iron and carbon monoxide. HO-1 is induced by many reagents including heme, Hb and lipopolysaccharide (LPS). LPS is known to activate the HO-1 gene in cultured mouse liver and macrophage cells through oxidative activation of NF-kappaB. But little is known about the effect of LPS and Hb on the HO-1 gene in living organisms. To study this issue, we examined the HO-1 and its mRNA levels in mouse liver, spleen and kidney after intravenous administration of LPS and Hb. On LPS treatment, the amount of HO-1 and its mRNA increased markedly mainly in mouse spleen, but on Hb treatment the amounts of HO-1 and its mRNA increased slightly only in liver. Run-off transcription assay supported the above results and band shift assays also revealed that LPS significantly activates an NF-kappaB-like factor in spleen cells, while Hb slightly activates it in liver cells. According to our previous study, a small amount of Hb injected to mouse is selectively taken up by liver as Hb-haptoglobin complex. These results suggest different pathways for the HO gene activation in mouse organs; one by LPS in spleen cells and the other by Hb in liver cells.
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PMID:Transcriptional activation of heme oxygenase-1 gene in mouse spleen, liver and kidney cells after treatment with lipopolysaccharide or hemoglobin. 1072 83


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