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)

We find a strong synergism between tumor necrosis factor (TNF) and bacteria or their products. Endotoxin-"free" recombinant TNF, even at very high doses (160 micrograms), did not alone cause hemorrhagic necrosis (HN) in the skin of normal mice. Similarly, TNF alone had a low systemic toxicity in tumor- and pathogen-free mice. However, TNF given intravenously with nanogram quantities of the endotoxin lipopolysaccharide caused lethal shock. Furthermore, subcutaneous injection of lipopolysaccharide made skin susceptible to subsequent induction of HN by TNF injected in the same site 24 hr later. Mycoplasma-infected cells or corynebacteria also synergized with TNF to cause HN or lethal shock. In addition, we find that lymphotoxin, a cytokine functionally and genetically related to TNF, also synergized with the bacteria to cause HN, whereas interleukin 1 alpha or interferon gamma did not. Together, the results indicate that a synergy between TNF and bacteria or their products causes HN and lethal shock in normal mice.
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PMID:Synergy between tumor necrosis factor and bacterial products causes hemorrhagic necrosis and lethal shock in normal mice. 342 44

Benzene is a potent bone marrow toxin in animals and man. Animal studies have shown that exposure to benzene can alter T lymphocyte functions and decrease the resistance of animals to Listeria monocytogenes and transplanted tumor cells. Mononuclear phagocytes participate in host resistance to Listeria and tumor cells. The purpose of the studies presented here was to determine the effects of benzene and benzene metabolites on macrophage functions and the ability of macrophages to be activated for functions which are important in host defense. Benzene had no effects on macrophage function or activation for any of the functions tested. Conversely, metabolites of benzene, catechol (CAT), hydroquinone (HQ), benzquinone (BQ), and 1,2,4-benzenetriol (BT) had potent and varied effects on macrophage function and activation. BQ inhibited the broadest range of functions including release of H2O2, Fc receptor-mediated phagocytosis, interferon gamma priming for tumor cell cytolysis, and bacterial lipopolysaccharide (LPS) triggering of cytolysis. BQ was also the most potent metabolite causing inhibition at lower concentrations than the other metabolites. HQ inhibited H2O2 release and priming for cytolysis and BT inhibited phagocytosis and priming for cytolysis. CAT only inhibited the release of H2O2. None of the compounds tested inhibited the induction of class II histocompatibility antigens on the cell surface. All of the effects measured occurred using concentrations of compounds which did not disrupt the cell integrity or inhibit general functions such as protein synthesis. Taken together these data suggest that benzene metabolites alter macrophage function through several mechanisms including inhibition of output enzymes and disruption of signal transduction systems.
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PMID:Toxic effects of benzene and benzene metabolites on mononuclear phagocytes. 342 22

A subclone, NOB-1, of the mouse EL-4 line constitutively produces very little interleukin-2 but in response to interleukin-1 produces high concentrations of interleukin-2. Co-stimulation with mitogen, phorbol esters or calcium ionophores was not required. NOB-1 is not responsive to tumour necrosis factor alpha, tumour necrosis factor beta, interferon gamma and lipopolysaccharide. The NOB-1 line was used in conjunction with a CTLL line to detect less than 1 pg/ml interleukin-1. Rapid assay was performed by co-culturing the EL-4 cells with CTLL cells. By incorporating a pre-incubation step, followed by thorough washing of the EL-4 cells, responses to interleukin-1 were maintained, but interleukin-2 had no effect. The assay was used to detect interleukin-1 in serum samples and to evaluate neutralizing antisera to interleukin-1.
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PMID:A simple sensitive bioassay for interleukin-1 which is unresponsive to 10(3) U/ml of interleukin-2. 349 88

To investigate differences among brain-derived microglia and other classes of immune cells, we compared the morphologies and growth properties of mononuclear phagocytes isolated from tissues of the newborn rat. Scanning EM shows that microglia from postnatal rat brain are covered with spines (typically > 20 per cell body) in a distinctive manner which contrasts the smooth surfaces of bone marrow cells and the ruffled surfaces of tissue macrophages from spleen, liver, and peritoneum. The spine-bearing surface of microglia is a specific cell marker, for it does not change with age or after exposure to cytokines or other immunostimulants. Approximately 99% of mononuclear phagocytes cultured from normal adult rat brain are spinous microglia. Five days after injury to rat brain, cells at sites of Wallerian degeneration are essentially all spinous ones while nearly 30% of cells found within areas of infarction or penetrating trauma are invading macrophages. In a similar way, nearly all cells isolated from normal, postmortem adult human brain are spine-bearing microglia (> 99% homogeneity). Brains from patients with amyotrophic lateral sclerosis contain only spinous microglia whereas cells from HIV-1 infected brains include significant numbers of invading ruffled macrophages. Cultured microglia, unlike cultured bone marrow precursors, monocytes, or tissue macrophages, spontaneously develop long, thin processes that extend hundreds of microns in length. Microglia retract these processes after exposure to fetal bovine serum, laminin, or such immunostimulants as recombinant murine interferon gamma (rmIFN gamma) and lipopolysaccharide. Of all types of mononuclear phagocytes tested, only microglia differentiate into quiescent ramified cells when in contact with astrocytes. Thus, microglia represent a unique class of cell maintained, in part, by astroglia as dormant, ramified mononuclear phagocytes in mature CNS. Application of cell surface criteria described here will allow study of distinct populations of mononuclear phagocytes associated with neurologic disorders.
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PMID:Cell surface morphology identifies microglia as a distinct class of mononuclear phagocyte. 747 22

Macrophages are a prominent resident cell type in the interstitial tissue of the testis in several mammalian species. This presence in an immunologically-privileged site prompted an investigation of their ability to initiate and regulate lymphocyte proliferation in vitro. Isolated rat peripheral blood lymphocytes (PBL) were cultured either directly with isolated rat testicular (Tm) or peritoneal (Pm) macrophages or with the conditioned medium from cultures of these cells (Ts or Ps). The presence of Tm and Ts reduced the proliferative response of PBL to 65% +/- 3% and 65% +/- 4% of that observed in the control cultures. Stimulation of the Tm with lipopolysaccharide (LPS) did not significantly alter this effect. Dialysis of Ts (to remove molecules < 14,000 MW) before addition to PBL cultures did significantly reduce the amount of inhibition, with PBL proliferation reaching 93% +/- 4% of the control. LPS in conjunction with indomethacin (IDM) or interferon gamma (IFN gamma) induced PBL proliferation at levels comparable to or significantly greater than those of the controls (104% +/- 4% and 113% +/- 6%, respectively). The collective addition of IDM, IFN gamma and LPS to Tm cultures increased PBL proliferation over control levels (119% +/- 5% for Ts and 133% +/- 6% for Tm). Prostaglandin levels in macrophage-conditioned medium were measured by specific radioimmunoassay and were significantly greater in Ts (13.1 +/- 0.4 ng/ml PGE2 and 16.8 +/- 0.6 ng/ml PGF2 alpha) than in Ps (both below the assay minimum sensitivities). The results indicate that the rat testicular macrophages produce high basal levels of prostaglandin E2 and F2 alpha. These products appear largely responsible for the inhibition by these cells of mitogen-induced PBL proliferation in vitro, and may contribute to both the immune-privileged status and the normal physiology of the rodent testis.
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PMID:Indomethacin blocks the immunosuppressive activity of rat testicular macrophages cultured in vitro. 747 30

Nitric oxide produced by cytokine-inducible nitric oxide synthase (iNOS) is thought to be important in the pathogenesis of septic shock. To further our understanding of the role of iNOS in normal biology and in a variety of inflammatory disorders, including septic shock, we have used gene targeting to generate a mouse strain that lacks iNOS. Mice lacking iNOS were indistinguishable from wild-type mice in appearance and histology. Upon treatment with lipopolysaccharide and interferon gamma, peritoneal macrophages from the mutant mice did not produce nitric oxide measured as nitrite in the culture medium. In addition, lysates of these cells did not contain iNOS protein by immunoblot analysis or iNOS enzyme activity. In a Northern analysis of total RNA, no iNOS transcript of the correct size was detected. No increases in serum nitrite plus nitrate levels were observed in homozygous mutant mice treated with a lethal dose of lipopolysaccharide, but the mutant mice exhibited no significant survival advantage over wild-type mice. These results show that lack of iNOS activity does not prevent mortality in this murine model for septic shock.
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PMID:Mice lacking inducible nitric oxide synthase are not resistant to lipopolysaccharide-induced death. 747 66

Recent demonstration of cytokine-inducible production of nitric oxide (NO) in vascular smooth muscle cells (VSMC) from rat aorta has implicated VSMC-derived NO as a key mediator of hypotension in septic shock. Our studies to determine whether an inducible NO pathway exists in human VSMC have revealed a novel cytokine-inducible, NO-independent pathway of guanylate cyclase activation in VSMC from human saphenous vein (HSVSMC). Interleukin 1 (IL-1), tumor necrosis factor (TNF), interferon gamma (IFN-gamma) and Escherichia coli lipopolysaccharide (LPS) increased cGMP at 24 h, whereas IL-2 and IL-6 were ineffective. The effect of IL-1 on cyclic guanosine 3',5'-monophosphate (cGMP) was delayed, occurring after 6 h of exposure, and was maximal after 10 h. Methylene blue and LY83583 reversed the IL-1-induced increase in cGMP, suggesting that it was mediated by activation of soluble guanylate cyclase. However, IL-1-induced cGMP in HSVSMC was not inhibited by extracellular hemoglobin. Also, the effect of IL-1 on cGMP was not reversed by nitro- or methyl-substituted L-arginine analogs, aminoguanidine, or diphenyleneiodonium, all of which inhibit IL-1-induced NO synthase in rat aortic VSMC (RAVSMC). IL-1-induced cGMP in HSVSMC was also independent of tetrahydrobiopterin and extracellular L-arginine, as it was not affected by 2,4-diamino-6-hydroxyprytimidine, an inhibitor of tetrahydrobiopterin biosynthesis, and was similar in L-arginine-free and L-arginine-containing media. Analysis of NO synthase mRNA with the use of polymerase chain reaction indicates that levels of mRNA for inducible NO synthase are several orders of magnitude lower in IL-1-treated human HSVSMC than in IL-1-treated RAVSMC. IL-1-induced cGMP was also NO independent in human umbilical artery VSMC, and NO dependent in rat vena cava VSMC. Together these results indicate that IL-1 activates a novel NO-independent pathway of soluble guanylate cyclase activation in human VSMC.
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PMID:Interleukin 1 activates soluble guanylate cyclase in human vascular smooth muscle cells through a novel nitric oxide-independent pathway. 750 3

Nitric oxide (NO) is a potent mediator involved in many biological functions including inflammation and non-specific immunity. Murine macrophages possess the prototype of high-output NO synthase which is not constitutively expressed but induced within a few hours by immunological stimuli. In this study, we explored the possibility of controlling the activity of the inducible NO synthase by interfering with the transduction signal which triggers its induction, in the RAW 264.7 macrophage cell line. We found that nicotinamide, an inhibitor of ADP-ribosylation, prevented NO synthase induction in RAW 264.7 cells after stimulation with interferon gamma (IFN-gamma) and lipopolysaccharide (LPS). Furthermore, the level of NO synthase mRNA was measured by Northern-blot analysis and we found that nicotinamide prevents expression of NO synthase mRNA in IFN-gamma- and LPS-stimulated cells. Nicotinamide was also found to inhibit other macrophage functions expressed in response to IFN-gamma, i.e. tumour necrosis factor secretion and the expression of the Ia antigen of the major histocompatibility complex. Analysis of the pattern of ADP-ribosylated proteins revealed that nicotinamide as well as cholera toxin prevented the ADP-ribosylation of a 107-117 kDa protein found constitutively ADP-ribosylated in stimulated and non-stimulated macrophage extracts. Together, our results indicate ADP-ribosylation as a crucial point of the signalling pathway which leads to NO synthase mRNA induction.
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PMID:Nicotinamide inhibits nitric oxide synthase mRNA induction in activated macrophages. 750 33

We examined the effect of bafilomycin A1 (BAF), an inhibitor of vacuolar-type H(+)-ATPases, on macrophages activation (measured as increased nitrite production and leishmanicidal activity) induced by interferon gamma alone or together with lipopolysaccharide or tumour necrosis factor alpha. BAF increased intravesicular pH and enhanced nitrite release by activated macrophages; however, the NO concentration necessary to kill parasites was higher in BAF-exposed than control macrophages, suggesting that microbicidal nitrogen derivatives were less active at alkaline pH. Antibody to tumour necrosis factor alpha inhibited BAF-induced nitrite production in interferon-activated cultures. To determine if enhanced NO synthesis was related to vesicular alkalinization, macrophages were incubated with the lysosomotropic bases NH4Cl and methylamine. These agents also increased intravesicular pH and nitrite production. Nitrite production was correlated with enhanced NO synthase activity in cytosolic extracts of the activated cells.
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PMID:Effect of increasing intravesicular pH on nitrite production and leishmanicidal activity of activated macrophages. 751 70

Recently, it was reported that nitric oxide (NO) directly controls intracellular iron metabolism by activating iron regulatory protein (IRP), a cytoplasmic protein that regulates ferritin translation. To determine whether intracellular iron levels themselves affect NO synthase (NOS), we studied the effect of iron on cytokine-inducible NOS activity and mRNA expression in the murine macrophage cell line J774A.1. We show here that NOS activity is decreased by about 50% in homogenates obtained from cells treated with interferon gamma plus lipopolysaccharide (IFN-gamma/LPS) in the presence of 50 microM ferric iron [Fe(3+)] as compared with extracts from cells treated with IFN-gamma/LPS alone. Conversely, addition of the iron chelator desferrioxamine (100 microM) at the time of stimulation with IFN-gamma/LPS increases NOS activity up to 2.5-fold in J774 cells. These effects of changing the cellular iron state cannot be attributed to a general alteration of the IFN-gamma/LPS signal, since IFN-gamma/LPS-mediated major histocompatibility complex class II antigen expression is unaffected. Furthermore, neither was the intracellular availability of the NOS cofactor tetrahydrobiopterin altered by treatment with Fe(3+) or desferrioxamine, nor do these compounds interfere with the activity of the hemoprotein NOS in vitro. We demonstrate that the mRNA levels for NOS are profoundly increased by treatment with desferrioxamine and reduced by Fe(3+). The half-life of NOS mRNA appeared not to be significantly altered by administration of ferric ion, and NOS mRNA stability was only slightly prolonged by desferrioxamine treatment. Nuclear run-off experiments demonstrate that nuclear transcription of cytokine-inducible NOS mRNA is strongly increased by desferrioxamine whereas it is decreased by Fe(3+). Thus, this transcriptional response appears to account quantitatively for the changes in enzyme activity. Our results suggest the existence of a regulatory loop between iron metabolism and the NO/NOS pathway.
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PMID:Iron regulates nitric oxide synthase activity by controlling nuclear transcription. 752 Apr 77

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