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)

Tissue macrophages and their precursors-the blood monocytes-respond rapidly to a bacterial infection with the release of inflammatory mediators. These mediators are involved in the recruitment of phagocytic cells, principally neutrophils, from the blood to the site of infection. To initiate this process macrophages and monocytes must be able to detect the presence of bacteria in a reliable, but nevertheless nonspecific, fashion. It is thought that this is achieved by means of receptors on the cell surface which recognize structures common to many different bacteria. One candidate for such a "pattern recognition element" is the cell surface glycoprotein CD14. CD14 has been shown to bind components of the Gram-positive cell wall and it also binds soluble lipopolysaccharide released from Gram-negative bacteria. In both cases the interaction with CD14 leads to an activation of the cell. Here we show that human peripheral blood monocytes can, in addition, bind intact Gram-negative bacteria in the presence of serum and this process involves CD14. When CD14 expression is induced on the myelomonocytic cell line U937 by treatment with vitamin D3 the cells concomittently acquire the capacity to bind bacteria. Furthermore, a non-monocytic cell line which does not bind bacteria acquires the capacity to do so when transfected with either the human or mouse CD14 gene. This binding can be inhibited by blocking the CD14 receptor with anti-CD14 antibody or by blocking the ligand on the bacteria with soluble CD14. Finally we demonstrate binding of sCD14 to Escherichia coli. We conclude that in the presence of serum both membrane-bound and soluble forms of CD14 can bind to Gram-negative bacteria. This suggests that CD14 may play a role in the detection and elimination of intact bacteria in vivo.
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PMID:Both membrane-bound and soluble forms of CD14 bind to gram-negative bacteria. 753 60

The secretion of tumor necrosis factor (TNF)-alpha from macrophages is regulated by both priming and triggering signals. We found that macrophages from mice lacking gamma delta T cells [T cell receptor (TCR) delta-/- mice], which lack the gene encoding the delta chain, produced only small amounts of TNF-alpha in response to lipopolysaccharide (LPS) and showed a reduced level of expression of CD14. Pre-incubation of macrophages from TCR delta-/- mice with gamma delta T cells from their TCR delta +/- littermates restored their capacity to produce TNF-alpha in response to LPS. The priming activity of gamma delta T cells was in part inhibited by neutralizing anti-interferon (IFN)-gamma monoclonal antibodies. Collectively, these results suggest that gamma delta T cells play a role in priming macrophages to a steady state of activation via IFN-gamma secretion, which allows them to produce TNF-alpha when exposed to LPS.
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PMID:The role of gamma delta T cells in priming macrophages to produce tumor necrosis factor-alpha. 753 62

When neutrophils are incubated with bacterial lipopolysaccharide (LPS), they become primed for enhanced release of superoxide anion (O2-) in response to stimulation by FMLP. We investigated the human neutrophil-priming activity of LPS from the periodontal pathogens, Porphyromonas gingivalis (Pg), Prevotella intermedia (Pi) and Actinobacillus actinomycetemcomitans (Aa) in comparison with that of LPS from Escherichia coli (E. coli). The optimum conditions for LPS to prime neutrophils were assessed for every LPS and found to be as follows: Neutrophils were incubated with LPS in the presence of 10% heat-inactivated plasma and 1 mM EDTA at 37 degrees C for 30 min and then stimulated with 1 microM FMLP at 37 degrees C for 7 min. Under these conditions, half-maximum priming was observed at 6.2 ng/ml Pg-LPS, 45 ng/ml Pi-LPS, 1.5 ng/ml Aa-LPS and 1.5 ng/ml E. coli-LPS. The priming activity of each LPS was neutralized by polymyxin B. Anti-CD14 monoclonal antibody inhibited priming by all LPS. The priming by Aa-LPS and E. coli-LPS was inhibited by LA-14-PP, a synthetic lipid A precursor IVA, but that by Pg-LPS and Pi-LPS was not. Priming by tumor necrosis factor alpha was not affected by polymyxin B, anti-CD14 antibody or LA-14-PP. Gelation of Limulus amebocyte lysate occurred at 10 pg/ml Pg-LPS, 30 pg/ml Pi-LPS, 3 pg/ml Aa-LPS and 3 pg/ml E. coli-LPS. Thus LPS from different periodontal pathogens primed neutrophils with different efficacy.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Lipopolysaccharides from periodontal pathogens prime neutrophils for enhanced respiratory burst: differential effect of a synthetic lipid a precursor IVA (LA-14-PP). 753 37

Activation of cells by bacterial lipopolysaccharide (LPS) plays a key role in the pathogenesis of gram-negative septic shock. The 55-kDa glycoprotein CD14 is known to bind LPS and initiate cell activation. However, there must be additional LPS receptors because CD14 is linked by a glycosylphosphatidyl inositol anchor to the cell membrane and therefore unable to perform transmembrane signalling. Searching for potential LPS receptors, we investigated the binding of LPS to membrane proteins of the human monocytic cell line Mono-Mac-6. Membrane proteins were electrophoretically separated under reducing conditions, transferred to nitrocellulose, and exposed to LPS, which was visualized with anti-LPS antibody. Smooth- and rough-type LPS, as well as free lipid A, bound to a variety of proteins in the absence of serum. However, in the presence of serum, additional or preferential binding to a protein of approximately 80-kDa was observed. Experiments with differently acylated lipid A structures showed that the synthetic tetraacyl compound 406 was still able to bind, whereas no binding was detected with the bisacyl compound 606. The 80-kDa membrane protein was also detected on human peripheral blood monocytes and endothelial cells. The serum factors mediating the binding of lipid A to the 80-kDa membrane protein were identified as soluble CD14 and LPS-binding protein. From these results, we conclude that this 80-kDa protein is a candidate for the hypothetical molecule for LPS and/or LPS-CD14 recognition and signal transduction.
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PMID:Binding of lipopolysaccharide (LPS) to an 80-kilodalton membrane protein of human cells is mediated by soluble CD14 and LPS-binding protein. 754 May 97

To investigate the regulatory effects of the prototypic Th2 lymphocyte products and potential immunotherapeutic agents interleukin-4 (IL-4) and IL-10 on macrophages differentiated in vitro under different cytokine-defined environments, blood monocytes were incubated for 7 days in the presence of granulocyte-macrophage colony-stimulating factor (GM-CSF), macrophage colony-stimulating factor or IL-4. The effect of monocyte culture in the presence or absence of serum was also investigated. Functional responses by 7-day-cultured cells to IL-4, quantified as decreased CD14 expression and suppression of lipopolysaccharide (LPS)-induced tumor necrosis factor-alpha (TNF-alpha) and IL-1 beta production, and as a positive response, increased CD23 expression, were compared directly with the responses by monocytes from which they were derived. In response to IL-10, decreases in LPS-induced TNF-alpha and IL-1 beta production and reduction in the expression of major histocompatibility complex (MHC) class II antigens were examined. Seven-day cultured monocytes/macrophages showed (1) diminished TNF-alpha production in response to IL-10 but not IL-4 (2), diminished IL-1 beta production in response to both IL-4 and IL-10, and compared with fresh monocytes (3), diminished CD14 expression in response to IL-4, and (4) a lesser increase in CD23 expression in response to IL-4. This was the case regardless of the cytokine in the presence of which the cells had been cultured for 7 days. Monocytes cultured for 7 days in GM-CSF expressed increased levels of MHC class II and LPS-induced TNF-alpha and responded inefficiently to IL-10 for decreased MHC class II. The responses by monocytes cultured for 7 days with GM-CSF resemble the published properties of synovial fluid macrophages from patients with chronic inflammatory arthritis. The study highlights the complexity of monocyte/macrophage responses to the immunoregulatory cytokines IL-4 and IL-10 and concludes that responses to IL-4 and IL-10 by blood monocytes may not be representative of responses by their differentiated or activated counterparts.
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PMID:Monocytes cultured in cytokine-defined environments differ from freshly isolated monocytes in their responses to IL-4 and IL-10. 754 Jun 42

In humans and experimental animals the presence of bacterial lipopolysaccharide (endotoxin, LPS) signals the presence of gram-negative bacteria. Recognition of LPS triggers gene induction by myeloid and nonmyeloid lineage cells. These inducible genes encode proteins that include cytokines, adhesive proteins, and enzymes that produce low molecular weight proinflammatory mediators. Together the products of these inducible genes upregulate host defense systems that participate in eliminating the bacterial infection. Unfortunately, these same mediators contribute to a serious human disease known as septic shock. Considerable progress has been made during the past decade in determining the sources, identities, and sequence of release of these mediators. In contrast, until recently, marked gaps in our knowledge existed regarding the identity of the LPS receptor and intracellular signaling pathways responsible for LPS-induced cell activation. The discovery in 1986 of a plasma protein termed LPS binding protein (LBP) led to the discovery of unanticipated mechanisms of LPS-induced cell activation. CD14 was found as a soluble serum protein or as a glycosylphosphatidylinositol (GPI)-anchored protein of myeloid lineage cells; it now occupies a key role in LPS-induced cell activation as we understand it today. Here we discuss how LBP enables LPS binding to CD14 and how complexes of LPS and soluble or GPI-anchored CD14 participate in cell activation. We also review the evidence supporting a model for a functional LPS receptor of myeloid cells, which is multimeric, comprised of GPI-anchored CD14 and a presently unidentified transmembrane protein that together bind LPS and initiate cell activation via kinase cascades.
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PMID:Receptor-dependent mechanisms of cell stimulation by bacterial endotoxin. 754 10

The monocyte glycosylphosphatidylinositol (GPI)-linked protein CD14 serves as the receptor for lipopolysaccharide (LPS), and regulates monocyte-lymphocyte interactions. We investigated whether CD14 expression is regulated by interleukin (IL)-13, a member of the chromosome 5 cytokine family. IL-13 inhibited CD14 expression on human monocytes. CD14 down-regulation resulted in the inhibition of LPS-induced release of tumor necrosis factor alpha, and involved neither shedding nor activation of endogenous GPI-anchor-cleaving enzymes. The CD14/actin RNA ratio was decreased 7-fold in IL-13-treated monocytes. Our results suggest that IL-13 down-regulates CD14 by suppressing CD14 RNA expression. Down-regulation of CD14, the LPS receptor, may play a major role in the anti-inflammatory effects of IL-13.
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PMID:Interleukin-13 regulates the phenotype and function of human monocytes. 754 68

CD14 is a 55-kDa glycoprotein that binds lipopolysaccharide (LPS) and enables LPS-dependent responses in a variety of cells. Monoclonal antibodies of CD14 such as 3C10 and MEM-18 are known to neutralize biological activity of CD14. Recently, it has been demonstrated that MEM-18 recognizes the LPS-binding site of CD14, between amino acids 57 and 64. It has also been shown that 3C10 recognizes a distinct epitope from that of MEM-18, indicating that 3C10 may yet define another functional domain of CD14. In order to identify the epitope for 3C10, we constructed a series of alanine substitution mutants of soluble CD14 (sCD14). BIAcore analyses showed that regions between amino acids 7 and 10 and between amino acids 11 and 14 are required for 3C10 binding. To assess the effect of altering the 3C10 epitope in CD14, we generated a stable cell line expressing a mutant sCD14 containing alanine substitutions in the region between amino acids 7 and 10, sCD14(7-10)A, and purified this protein to homogeneity. sCD14(7-10)A has impaired ability to mediate LPS-dependent IL-6 up-regulation in U373 cells, integrin activation in neutrophils, and NF-kappa B activation in U373 cells. Purified sCD14(7-10)A was, however, capable of forming a stable complex with LPS in an LPS binding protein-facilitated and LPS binding protein-independent fashion. The ability of sCD14(7-10)A to bind LPS was also demonstrated in assays in which excess sCD14(7-10)A inhibited LPS-mediated tumor necrosis factor-alpha production in whole blood and adhesion of polymorphonuclear leukocytes to fibrinogen. These data strongly suggest that a region recognized by neutralizing monoclonal antibody 3C10 contains a domain required for cellular signaling but not for LPS binding.
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PMID:Identification of a domain in soluble CD14 essential for lipopolysaccharide (LPS) signaling but not LPS binding. 754 33

Glycosphingolipids (GSL) isolated from the gram-negative lipopolysaccharide (LPS)-free bacterium Sphingomonas paucimobilis have remarkable structural similarities with LPS and its hydrophobic part, termed lipid A. Like LPS, but in contrast to the structurally related ceramides and cerebrosides, GSL contain an alpha-linked, negatively charged pyranosidic glycosyl component adjacent to the lipid portion and are capable of forming membranes. Because of these similarities, it was of interest to investigate whether these GSL are also able to induce monokine production in human mononuclear cells (MNC). Our results show that a GSL containing four sugar residues (GSL-4A) induced the release of tumor necrosis factor, interleukin-6, and interleukin-1 in MNC, whereas GSL-1, containing only one glycosyl residue, was inactive. A minimal concentration of 1 microgram of GSL-4A per ml was necessary to induce monokine production in MNC, whereas LPS was as active at a 10,000-fold-lower concentration (0.1 ng/ml). Both GSL-4A-induced monokine production and LPS-induced monokine production were reduced by the bactericidal/permeability-increasing protein and GSL-1. In contrast to LPS, GSL-4A-induced monokine release could be inhibited neither by an anti-CD14 monoclonal antibody nor by lipid A partial structures. We therefore conclude that at the receptor level, different mechanisms are involved in the LPS- and GSL-4A-induced monokine release.
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PMID:Glycosphingolipids from Sphingomonas paucimobilis induce monokine production in human mononuclear cells. 754 35

Chlamydia trachomatis is a major etiologic agent of sexually transmitted diseases. Although C. trachomatis is a gram-negative pathogen, chlamydial infections are not generally thought of as endotoxin-mediated diseases. A molecular characterization of the acute immune response to chlamydia, especially with regard to the role of its lipopolysaccharide (LPS), remains to be undertaken. We extracted 15 mg of LPS from 5 x 10(12) C. trachomatis elementary bodies (EB) for analysis of structure and biological activity. When methylated lipid A was subjected to high-pressure liquid chromatography followed by mass spectrometry, the majority of the lipid A was found to be pentaacyl. The endotoxin activities of whole C. trachomatis EB and purified LPS were characterized in comparison with whole Salmonella minnesota R595 and with S. minnesota R595 LPS and lipooligosaccharide from Neisseria gonorrhoeae. Both C. trachomatis LPS and whole EB induced the release of tumor necrosis factor alpha from whole blood ex vivo, and C. trachomatis LPS was capable of inducing the translocation of nuclear factor kappa B in a Chinese hamster ovary fibroblast cell line transfected with the LPS receptor CD14. In both assays, however, C. trachomatis was approximately 100-fold less potent than S. minnesota and N. gonorrhoeae. The observation that C. trachomatis is a weak inducer of the inflammatory cytokine response correlates with the clinical observation that, unlike N. gonorrhoeae infection, genital tract infection with C. trachomatis is often asymptomatic. The ability of specific LPS antagonists to completely inhibit the tumor necrosis factor alpha-inducing activity of whole C. trachomatis EB suggests that the inflammatory cytokine response to chlamydia infection may be mediated primarily through LPS. This implies that the role of other surface protein antigens, at least in terms of eliciting the proinflammatory cytokine response, is likely to be minor.
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PMID:The inflammatory cytokine response to Chlamydia trachomatis infection is endotoxin mediated. 754 38

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