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)

Although tumor necrosis factor (TNF) is undoubtedly a major mediator of the antitumor and shock-inducing activities of lipopolysaccharide (LPS), the outcome of a challenge with TNF is highly dependent on the presence or absence of other substances or conditions. We have previously shown that to obtain lethality in mice after TNF administration both TNF receptor (TNF-R) types have to be triggered. This is illustrated by the fact that recombinant human (rh) TNF, which is a selective murine (m) TNF-R55 agonist, is not lethal, whereas mTNF, which binds both mTNF-R55 and mTNF-R75, is lethal in mice. Triggering of TNF-R75 is, however, no longer needed when sensitizers such as galactosamine or low doses of LPS or interleukin (IL)-1 are also present. Here, we report that this selective species specificity of TNF is also reflected in patterns of induced IL-6: both rmTNF and rhTNF could induce considerable IL-6 peak levels in the plasma (up to 10 ng/ml) 2 to 3 h after TNF administration. However, only rmTNF was capable of inducing the same pattern of sustained IL-6 levels previously observed after lethal LPS doses, while rhTNF only caused induction of transient IL-6 levels, as found after nonlethal LPS doses. We also observed that the sensitizer IL-1 could complement rhTNF to induce such a sustained IL-6 induction. Since we were interested in sensitizers with a defined mechanism of action, we further investigated the effects of the glucocorticoid and progesterone inhibitor RU38486 on the lethal and IL-6-inducing properties of TNF. We observed that RU38486 closely mimicked IL-1: both had similar effects on IL-6 induction and sensitized mice to the lethal effects of TNF with comparable efficiency and kinetics. Using a monoclonal anti-IL-1R antibody, we finally observed that the effects of RU38486 were most probably not mediated by IL-1. These observations suggest that a glucocorticoid-antagonistic activity might be a key factor in the pathways leading to septic shock and that such activity could be a key target for the pharmacological manipulation of sepsis.
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PMID:The glucocorticoid antagonist RU38486 mimics interleukin-1 in its sensitization to the lethal and interleukin-6-inducing properties of tumor necrosis factor. 153 65

Three different tests were performed to investigate the effect of teicoplanin on lipopolysaccharide (LPS). After incubation for 3 h with teicoplanin, LPS from Salmonella minnesota R595 showed reduced reactivity in the metachromatic dimethyl-methylene blue assay and the limulus amoebocyte lysate test. In addition, galactosamine-sensitized mice had an increased survival rate, from 29% to 72%, when teicoplanin was pre-incubated for 3 h with the LPS to be injected intraperitoneally. The results suggest that teicoplanin may have a neutralizing effect on LPS.
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PMID:Teicoplanin reduces in-vitro reactivity and murine lethality of Salmonella minnesota R595 lipopolysaccharide. 815 61

In patients with malaria, the clinical manifestations of the disease are associated with the presence of high concentrations of tumour necrosis factor (TNF) in the serum. Blood-stage parasites of human and rodent malarial parasites release serologically related exoantigens which induce the production of TNF in vitro and in vivo and which can kill mice made hypersensitive to TNF by pretreatment with D-galactosamine. They also elicit the production of T-independent antibody, which blocks these effects. The capacity of the exoantigens to stimulate macrophages to secrete TNF does not require the presence of protein or carbohydrate, but is associated with a lipid whose activity can be abolished by treatment with phospholipase C. Treatments of the exoantigens which destroyed their activity in vitro also abrogated their immunogenicity and their toxicity for mice. No TNF-inducing activity could be detected in preparations of parasitized erythrocytes that was not associated with phospholipid, and the TNF-inducing properties of the malarial phospholipids are quite distinct from those of bacterial lipopolysaccharide. We conclude that release of potentially toxic phospholipids by parasites may be responsible for some of the pathology of malaria.
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PMID:Tumour necrosis factor induction by malaria exoantigens depends upon phospholipid. 153 89

Brucella abortus may be useful as a component of vaccines. This is because it possesses several unique properties as a carrier that enable it to stimulate human B cells even in the relative absence of T cells. Human immunodeficiency virus type 1 proteins conjugated to B. abortus could induce neutralizing antibodies against human immunodeficiency virus type 1. Recently we showed that the characteristics of lipopolysaccharide (LPS) derived from B. abortus are similar to those of the whole bacterium in that the LPS acts as a T-independent type 1 carrier in mice. In this study we wanted to determine whether LPS derived from B. abortus is associated with the adverse effects seen with other bacterial endotoxins. LPS purified from B. abortus by butanol extraction was shown to have less than 2% (wt/wt) contamination by protein and less than 1% (wt/wt) contamination by nucleic acids and to contain 1% (wt/wt) ketodeoxyoctanic acid. Compared with LPS derived from Escherichia coli, B. abortus LPS was 10,000-fold less potent in eliciting fever in rabbits, 268-fold less potent in killing D-galactosamine-sensitized mice, and 1,400-fold and 400-fold less potent in inducing interleukin-1 beta and tumor necrosis factor alpha production, respectively. These results suggest that B. abortus LPS is much less likely than the LPS from E. coli to evoke endotoxic shock; therefore, it may be feasible to incorporate B. abortus as a component of vaccines.
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PMID:Lipopolysaccharide (LPS) from Brucella abortus is less toxic than that from Escherichia coli, suggesting the possible use of B. abortus or LPS from B. abortus as a carrier in vaccines. 154 64

Lipopolysaccharide from the gastroduodenal pathogen Helicobacter pylori was tested for its ability to induce mitogenicity in mouse spleen cells, pyrogenicity in rabbits, and toxic lethality in galactosamine-sensitized mice. Compared with those for enterobacterial lipopolysaccharide, mitogenicity and pyrogenicity were a thousand-fold lower and lethal toxicity was 500-fold lower. We suggest that the phosphorylation pattern and acylation in lipid A are responsible for the low biological activity.
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PMID:Low biological activity of Helicobacter pylori lipopolysaccharide. 154 97

Pretreatment with the reactive oxygen species scavengers superoxide dismutase (SOD) and catalase or with the xanthine oxidase inhibitor allopurinol protected mice against hepatitis induced by the combined administration of lipopolysaccharide (endotoxin) and D-galactosamine. In the sera of protected animals no tumor necrosis factor (TNF alpha) was detectable in contrast to abundant amounts in the sera of injured control animals. A similar protection by the suppression of systemic TNF alpha was observed following the pretreatment of mice with polystyrene-coupled SOD prior to endotoxic challenge. Both pretreatments were ineffective when hepatitis was evoked by administration of the mediator TNF alpha instead of endotoxin. These findings indicate that the formation of extracellular reactive oxygen species is a condition needed to induce the release of TNF alpha and thus to mediate endotoxin-induced toxicity.
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PMID:A link between extracellular reactive oxygen and endotoxin-induced release of tumour necrosis factor alpha in vivo. 155 88

We have previously shown that malaria parasites liberate exoantigens which, through a phospholipid component, stimulate mouse macrophages to secrete tumor necrosis factor (TNF), which are toxic to D-galactosamine-sensitized mice, and which therefore might be involved in pathology. Plasmodium yoelii exoantigens detoxified by dephosphorylation or digestion with lipases do not induce TNF production. However, these partial structures inhibited its production in response to the exoantigens, although not to bacterial lipopolysaccharide (LPS). When pure phospholipids were tested in a macrophage assay, none stimulated the production of TNF, but phosphatidylinositol (PI) inhibited TNF induction by P. yoelii exoantigens. Moreover, inositol monophosphate (IMP) was the only one of a number of monophosphate saccharides tested which was inhibitory; inositol was not. Macrophages pretreated with PI, IMP, or detoxified exoantigens and then incubated with parasite exoantigens also yielded much less TNF. PI, IMP, and lipase-digested exoantigens of P. yoelii similarly inhibited the TNF-inducing activity of exoantigens of the human parasites Plasmodium falciparum and Plasmodium vivax. Neither PI nor IMP diminished TNF production in response to LPS, in contrast to a platelet-activating factor antagonist [1-O-hexadecyl-2-acetyl- sn-glycero-3-phospho(N,N,N-trimethyl hexanolamine)] which inhibited both exoantigen- and LPS-induced production of TNF. We conclude that at least two different parts of the molecule are involved in the induction of TNF secretion by parasite exoantigens: one requires the presence of a phosphate bound to inositol, and, since dephosphorylated exoantigens were also inhibitory, one does not. It would seem that both affect interactions between parasite-derived exoantigens and the macrophage receptors.
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PMID:Detoxified exoantigens and phosphatidylinositol derivatives inhibit tumor necrosis factor induction by malarial exoantigens. 156 80

Diphosphoryl lipid A from the lipopolysaccharide (LPS) of Rhodobacter sphaeroides (Rs-DPLA) has been demonstrated to block in mice and guinea pigs the increase in the serum tumor necrosis factor (TNF) response induced by highly purified deep rough chemotype LPS from Escherichia coli D31m4 (ReLPS). The present study was designed to determine the role of corticosterone induction by Rs-DPLA and its effect on TNF regulation and survival in lethal endotoxin shock models and to evaluate the ability of Rs-DPLA to induce endotoxin tolerance. Administration of a 100-fold excess of Rs-DPLA 1 h prior to ReLPS administration inhibited the characteristic peak in serum TNF levels induced by LPS. Inhibition was apparent in normal and D-galactosamine (GalN)-sensitized mice and occurred at the pretranslational level, as splenic TNF and interleukin-1 beta mRNAs were present in lower amounts in LPS-stimulated mice pretreated with Rs-DPLA. Consistent with its effects in reducing serum TNF levels, Rs-DPLA pretreatment protected GalN-sensitized mice from a lethal ReLPS challenge. In contrast, Rs-DPLA did not inhibit the increase in the serum TNF response or protect against a lethal ReLPS challenge in parallel experiments with adrenalectomized (Adrex) mice, for which the 50% lethal dose of ReLPS was comparable to that for GalN-sensitized mice. Furthermore, Rs-DPLA appeared to prime Adrex animals and increase the magnitude of the serum TNF response to a suboptimal LPS stimulus. Priming by Rs-DPLA, however, was not observed in normal or GalN-sensitized mice. Although Rs-DPLA by itself was nontoxic and unable to elevate serum TNF levels in any of the models investigated, it did induce a significant increase in the serum corticosterone response and was capable of inducing endotoxin tolerance in normal mice. The inability of Rs-DPLA to protect Adrex mice from a lethal ReLPS stimulus or to inhibit the increase in the serum TNF response suggests that the protective effect of Rs-DPLA in normal or GalN-sensitized animals occurs through corticosterone induction. These results support the concept that endogenous glucocorticoids can modulate the endotoxic effects of LPS by inhibiting the synthesis of inflammatory cytokines.
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PMID:In vivo inhibition of lipopolysaccharide-induced lethality and tumor necrosis factor synthesis by Rhodobacter sphaeroides diphosphoryl lipid A is dependent on corticosterone induction. 161 27

E3330 [(2E)-3-[5-(2,3-dimethoxy-6-methyl-1,4-benzoquinoyl)]-2-nonyl-2- propenoic acid] is a newly synthesized hepatoprotective quinone derivative. We examined the protective effects and possible mechanism of action of E3330 in three different endotoxin (lipopolysaccharide)-induced murine hepatitis models, in which tumor necrosis factor is suggested to play a critical role in the pathogenesis. One of these models was induced by i.v. injection of lipopolysaccharide in combination with D-galactosamine to mice. Oral pretreatment with E3330 improved the survival rate and attenuated the increase in plasma aminotransferase activities of the survivors. The other two models were induced by i.v. injection of lipopolysaccharide or a mixture of D-galactosamine and lipopolysaccharide in Propionibacterium acnes-primed mice. In both of these models, tumor necrosis factor was detected in the plasma within 3 hr of the injection. Oral pretreatment with E3330 attenuated the elevation of plasma tumor necrosis factor activity and protected mice from liver injury. Furthermore, E3330 inhibited the production of tumor necrosis factor from cultured Propionibacterium acnes-elicited murine peritoneal macrophages on stimulation with lipopolysaccharide in vitro. These findings suggest that the inhibition by E3330 of tumor necrosis factor production is the major mechanism of the protective effect of E3330 in these endotoxin-mediated hepatitis models in mice.
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PMID:Protective effects of (2E)-3-[5-(2,3-dimethoxy-6-methyl-1,4- benzoquinoyl)]-2-nonyl-2-propenoic acid on endotoxin-mediated hepatitis in mice. 162 94

Lipid X, a precursor in the biosynthesis of lipid A, has been claimed to possess most of the immunostimulatory activity but none of the toxicity of endotoxin. However, recent work shows that synthetic lipid X can be contaminated with small amounts of N,O-acylated disaccharide-1-phosphate (H. Aschauer, A. Grob, J. Hildebrandt, E. Schuetze, and P. Steutz, J. Biol. Chem. 265:9159-9164, 1990). Because the impurities themselves exhibit immunostimulatory properties, it was necessary to establish whether chemically pure synthetic lipid X exhibits any of the endotoxinlike biological activities previously attributed to the native compound extracted from the Escherichia coli MN7 mutant. In the present study, two batches of synthetic lipid X were used: batch A contained the contaminating disaccharide, and batch B was pure lipid X. Batch A, previously believed to be pure on the basis of spectroscopic and microanalysis data, induced murine peritoneal macrophages to secrete tumor necrosis factor, interleukin-1, and prostaglandin E2 at a minimal dose of 10 micrograms/ml in vitro. Batch B, further purified by Sephadex LH 20 chromatography, was found virtually inactive in these in vitro assays. Furthermore, batch A was pyrogenic in rabbits at a dose of 0.05 mg/kg, whereas batch B was not pyrogenic at doses of up to greater than or equal to 2 mg/kg. However, both batches were equally tolerated by galactosamine-loaded mice at doses of up to 100 mg/kg. Surprisingly, while only batch A protected neutropenic mice against lethal infection with Pseudomonas aeruginosa (50% effective dose, 12.4 mg/kg), both batches were equally protective against infection with herpes simplex virus type 1 in mice and guinea pigs, even when lipid X was administered therapeutically. Interestingly, both batches of lipid X blocked endotoxin-induced expression of monocyte procoagulant activity and priming of human neutrophils for superoxide anion release. Similarly, both batches protected galactosamine-sensitized mice from otherwise lethal endotoxemia when administered prophylactically or simultaneously with the lipopolysaccharide challenge. Thus, our findings suggest that chemically pure lipid X (batch B) is devoid of the immunostimulatory properties of lipid A or endotoxin. Rather, it behaves as a competitive inhibitor of lipopolysaccharide. We conclude, therefore, that previous studies which attributed immunostimulatory activities to any batch of synthetic lipid X should be interpreted with caution.
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PMID:Immunostimulatory, but not antiendotoxin, activity of lipid X is due to small amounts of contaminating N,O-acylated disaccharide-1-phosphate: in vitro and in vivo reevaluation of the biological activity of synthetic lipid X. 164 70

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