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)

Limulus amebocyte lysate, obtained from horseshoe crab (Limulus polyphemus) blood cells, contains a coagulation system which is activated by bacterial lipopolysaccharide (LPS). A chromatographic fraction of Limulus lysate, containing the endotoxin-sensitive factor(s) which initiates the coagulation cascade, was studied. We utilized a photoreactive, cleavable, radiolabeled derivative of Salmonella minnesota LPS, LPS-(p-azidosalicylamido)-1,3'-dithiopropionamide (LPS-ASD), to identify LPS-binding proteins. The lysate fraction was incubated with LPS-ASD, and LPS-binding proteins were identified by autoradiography of sodium dodecyl sulfate-polyacrylamide gels. An 82-kDa protein, a major protein component of this fraction from Limulus lysate, was identified as a LPS-binding protein in a majority of lysates. Incubation of whole Limulus lysate with antiserum to this protein resulted in enhanced sensitivity of the lysate to LPS, suggesting that this 82-kDa protein is a negative regulator of coagulation. A minor 50-kDa protein component of lysate also was identified as a LPS-binding protein and is a candidate for the LPS-sensitive coagulation protein in L. polyphemus.
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PMID:Lipopolysaccharide-binding proteins of Limulus amebocyte lysate. 843 86

We have previously described the isolation and initial characterization of functionally distinct 15-kDa protein isoforms (p15s) from rabbit polymorphonuclear leukocytes (PMN) that bind with high affinity to Escherichia coli and modulate the antibacterial actions of other leukocyte proteins on this Gram-negative bacterium. We now report the cloning and sequencing of two distinct cDNAs from a rabbit bone marrow library that encode p15s differing at only 2 residues (His-3, Arg-88 versus Arg-3, Trp-88). Tryptophan-directed chemical cleavage of two isoforms purified from a single rabbit confirms the existence of multiple isoforms with distinct function and primary structure in a single rabbit. The p15 cDNAs encode putative signal sequences and studies of cellular and subcellular localization indicate that the p15s are granule-associated proteins of PMN. Both purified isoforms bind avidly to lipopolysaccharide (LPS), the major component of the Gram-negative bacterial outer membrane. Analysis of the deduced primary structures of the p15s reveals homology to three other leukocyte proteins: CAP-18, an 18-kDa LPS-binding protein from rabbit PMN, pro-indolicidin, a 16-kDa precursor of an antibacterial peptide of bovine PMN, and cathelin, an 11-kDa cysteine protease inhibitor from porcine leukocytes, suggesting the existence of a novel family of leukocyte proteins with LPS-binding, antimicrobial, and protease-inhibitory activities.
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PMID:Antibacterial 15-kDa protein isoforms (p15s) are members of a novel family of leukocyte proteins. 844 63

The bactericidal/permeability-increasing protein (BPI) inhibits the lipopolysaccharide (LPS)-mediated activation of monocytes. Due to its inhibitory activity for various LPS, BPI has therapeutic potential in endotoxic shock. To be efficient in vivo, BPI should overcome the action of LPS-binding protein (LBP), a serum molecule that increases the expression of LPS-inducible genes via CD14 of monocytes, rBPI23, a recombinant fragment of BPI, prevented in a dose-dependent manner the binding and the internalization of LPS mediated by LBP. Consequently, rBPI23 also inhibited LPS-induced tumor necrosis factor (TNF alpha) synthesis from monocytes. LPS- and LBP-mediated activation of monocytes was totally inhibited when LPS was preincubated with rBPI23. Adding rBPI23 at the same time as LBP resulted in an important but partial inhibition of TNF alpha release, but this inhibition vanished with delaying the time of addition of rBPI23. These studies suggest that the inhibitory activity of BPI is related to its ability to compete with LBP for LPS.
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PMID:Competition between bactericidal/permeability-increasing protein and lipopolysaccharide-binding protein for lipopolysaccharide binding to monocytes. 850 24

Bacterial endotoxin (lipopolysaccharide, LPS) has potent proinflammatory properties toward many cell types, including vascular endothelial cells. Bovine endothelial cells are often used for investigations involving the vascular endothelium in vitro, and other bovine products such as fetal bovine serum are also widely utilized in research laboratories. Evidence is presented that soluble CD14 (sCD14) is present in bovine serum and that LPS-mediated activation and cytotoxicity to bovine endothelial cells in vitro are dependent on sCD14. LPS-mediated activation of endothelial cells was quantitated by measuring tissue factor expression using an activated factor X-related chromogenic assay. Concentrations of 0.1-5.0% fetal bovine serum in the culture medium promoted LPS-induced tissue factor expression on bovine endothelial cells, and anti-CD14 monoclonal antibody (mAb) (20 micrograms/ml) inhibited tissue factor expression, whereas control antibodies did not. LPS-mediated damage to endothelial cells was assayed using the MTT tetrazolium assay. We found that either serum or recombinant human soluble CD14 (rsCD14, 20-2000 ng/ml) was required for LPS-related endothelial cell damage and that anti-CD14 mAb inhibited cytotoxicity. In addition, bovine LPS-binding protein (LBP, 20 ng/ml) purified from bovine serum had no effect on LPS-mediated cytotoxicity, but bovine LBP greatly enhanced the cytotoxic effect of LPS plus rsCD14. Western blot analysis performed on fractionated bovine serum samples with anti-CD14 mAb revealed immunoreactivity with a 50-55-kd protein, a size consistent with sCD14. Evidence of endothelial cell-associated CD14 was not detected using an immunofluorescence technique on cell preparations, nor by Northern blot analysis. These results indicate the existence of sCD14 in bovine serum and that soluble bovine serum factors including sCD14 and LBP facilitate presentation of LPS to receptive cells.
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PMID:Soluble CD14 and lipopolysaccharide-binding protein from bovine serum enable bacterial lipopolysaccharide-mediated cytotoxicity and activation of bovine vascular endothelial cells in vitro. 860 96

Membrane CD14 is involved in lipopolysaccharide (LPS)-induced monocyte activation; it binds LPS, and antibodies against CD14 block the effects of low-dose LPS. It is unknown how LPS regulates its own receptor CD14 in vitro. Therefore, we investigated the effects of LPS on CD14 mRNA and membrane and soluble CD14 (mCD14 and sCD14, respectively) in human monocytes and macrophages. No changes were observed during the first 3 h of LPS stimulation. After 6 to 15 h, LPS weakly reduced CD14 mRNA and mCD14 and transiently enhanced sCD14 release. A 2-day incubation with LPS caused increases in the levels of CD14 mRNA (2-fold), mCD14 (2-fold), sCD14 (1.5-fold), and LPS-fluorescein isothiocyanate binding (1.5-fold); a 5-h incubation with LPS was sufficient to induce the late effects on mCD14 and sCD14. The maximal effect on mCD14 and sCD14 was reached with > or = 1 ng of LPS per ml; the proportional distribution of the two sCD14 isoforms was not modified by LPS. Besides rough and smooth LPS, lipid A, heat-killed Escherichia coli, lipoteichoic acid, and Staphylococcus aureus cell wall extract (10 micrograms/ml) caused similar increases of mCD14. The LPS effect was blocked by polymyxin B but not by anti-tumor necrosis factor alpha, anti-interleukin-6, anti-gamma interferon, and anti-LPS-binding protein. LPS-induced tumor necrosis factor alpha production was abolished after a second 4-h challenge. In contrast, the LPS-induced increases CD14 mRNA, mCD14, and sCD14 were stronger and appeared earlier after a second LPS challenge. In conclusion, CD14 is transcriptionally upregulated by LPS and other bacterial cell wall constituents.
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PMID:Human monocyte CD14 is upregulated by lipopolysaccharide. 861 89

Mammals continually confront microbes at mucosal surfaces. A current model suggests that epithelial cells contribute to defense at these sites, in part through the production of broad-spectrum antibiotic peptides. Previous studies have shown that invertebrates can mount a host defense response characterized by the induction in epithelia] cells of a variety of antibiotic proteins and peptides when they are challenged with microorganisms, bacterial cell wall/membrane components, or traumatic injury [Boman, H.G. & Hultmark, D. (1987) Annu. Rev. Microbiol. 41, 103-126J. However, factors that govern the expression of similar defense molecules in mammalian epithelial cells are poorly understood. Here, a 13-fold induction of the endogenous gene encoding tracheal antimicrobial peptide was found to characterize a host response of tracheal epithelia] cells (TECs) exposed to bacterial lipopolysaccharide (LPS). Northern blot data indicated that TECs express CD14, a well-characterized LPS-binding protein known to mediate many LPS responses. A monoclonal antibody to CD14 blocked the observed tracheal antimicrobial peptide induction by LPS under serum-free conditions. Together the data support that CD14 of epithelial cell origin mediates the LPS induction of an antibiotic peptide gene in TECs, providing evidence for the active participation of epithelial cells in the host's local defense response to bacteria. Furthermore, the data allude to a conservation of this host response in evolution and suggest that a similar inducible pathway of host defense is prevalent at mucosal surfaces of mammals.
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PMID:Inducible expression of an antibiotic peptide gene in lipopolysaccharide-challenged tracheal epithelial cells. 864 45

Helicobacter pylori and Porphyromonas gingivalis are gram-negative bacteria associated with chronic inflammatory diseases. These bacteria possess lipopolysaccharides (LPSs) that are able to activate human monocytes to produce tumor necrosis factor alpha but fail to activate human endothelial cells to express E-selectin. With Escherichia coli LPS, tumor necrosis factor alpha activation requires membrane-bound CD14 and E-selectin expression requires soluble CD14 (sCD14). Therefore, the ability of H. pylori and P. gingivalis LPSs to transfer to and bind sCD14 was examined by using immobilized recombinant sCD14 and human serum or recombinant LPS-binding protein (LBP). H. pylori and P. gingivalis LPSs were transferred to sCD14 when serum or LBP was present. However, the transfer of these LPSs to CD14 in serum was significantly slower than the transfer of E. coli LPS. Quantitation of the transfer rates by Michaelis-Menten kinetics yielded K(m) values of 6 and 0.1 nM for H. pylori and E. coli LPSs, respectively. The amount of P. gingivalis LPS required to obtain half-maximum binding to CD14 was approximately 10-fold greater than the amount of E. coli LPS required. The slower transfer rates displayed by these LPSs can be explained by the poor binding to LBP observed in direct binding assays. These results are consistent with the proportionately lower ability of these LPSs to activate monocytes compared with E. coli LPS. However, the ability of H. pylori and P. gingivalis LPSs to bind LBP and transfer to sCD14 demonstrates that the lack of endothelial cell CD14-dependent cell activation by these LPSs occurs distal to sCD14 binding.
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PMID:Helicobacter pylori and Porphyromonas gingivalis lipopolysaccharides are poorly transferred to recombinant soluble CD14. 875 5

Lipopolysaccharide-binding protein (LBP) plays a central role in presentation of bacterial-derived lipopolysaccharide (LPS; endotoxin) to leukocytes such as macrophages and neutrophils. Interaction of LBP with LPS is significant because LBP-LPS complexes promote activation of leukocytes and the immune system, which results in enhanced secretion of a spectrum of proinflammatory cytokines. An improved, simplified method was used to purify bovine LBP from serum. Methodology consisted of ion-exchange chromatography using Bio-Rex 70 resin, followed by gel-filtration chromatography (Sephacryl S-200 resin) of a selected ion-exchange fraction (0.22-0.50 M NaCl). Densitometric scans on silver-stained polyacrylamide gels of chromatographically-derived proteins indicated up to 88.7% purity of the resultant 64kD protein (bovine LBP) in the cleanest fractions. The isoelectric point of bovine LBP was determined to be 6.8. Identity of the protein was substantiated by western-blot analysis, and by N-terminus amino acid sequence analysis with favorable comparison to published sequence data from rabbit, human, and murine LBP Identity was corroborated by use of purified bovine LBP in bioassays which demonstrated enhanced tissue factor expression of LPS (1 ng ml(-1)-stimulated bovine alveolar macrophages. Tissue factor expression was inhibitable in these assays using anti-CD14 monoclonal antibodies, which is also consistent with LBP-mediated activation of cells. When bovine LBP was heated at 56 degrees C for 30 min, the biological activity was reduced by 50% in the macrophage-based bioassays. Biological activity of bovine LBP was completely destroyed by heating at 62 degrees C for 30 min, which compared favorably with data resulting from use of fetal bovine serum.
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PMID:Purification of lipopolysaccharide-binding protein from bovine serum. 879 67

In allergic asthma, inhalation of antigen provokes an early increase in microvascular permeability with protein extravasation and a delayed recruitment of inflammatory cells. We showed that similar concentrations of lipopolysaccharide (LPS) are present in bronchoalveolar lavage fluid (BALF) in 12 subjects without asthma (86.5 +/- 53.8 pg/ml) and 12 subjects with mild asthma (111 +/- 37.0 pg/ml). These LPS levels are insufficient to stimulate cytokine release without accessory molecules. BALF obtained 24 h after segmental ragweed antigen challenge in 11 asthmatics allergic to ragweed contained increased levels of two LPS accessory molecules compared with preantigen BALF, 158-fold more LPS-binding protein (LBP) 4.83 +/- 2.02 vs. 742 +/- 387 ng/ml; P < 0.03) and 31.6-fold more soluble CD14 (sCD14) (3.45 +/- 1.04 vs. 110 +/- 51.6 ng/ml; P < 0.02). Postantigen BALF enhanced binding of fluorescein-conjugated LPS to CD14-bearing THP-1 cells and supported LPS-induced non-CD14-bearing endothelial cell expression of intercellular adhesion molecule-1 and interleukin-6, indicating functional LBP and sCD14. We suggest that extravasation of LBP and sCD14 into the bronchoalveolar compartment after antigen inhalation may enhance the capacity of inhaled or aspirated LPS to activate an inflammatory cascade that may amplify the inflammatory response to inhaled antigen in some asthmatics.
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PMID:Asthma and endotoxin: lipopolysaccharide-binding protein and soluble CD14 in bronchoalveolar compartment. 896 7

The activation of leucocytes by bacterial cell wall lipopolysaccharide (LPS) contributes to the pathogenesis of septic shock. LPS is known to interact with several cell-surface proteins, including CD14, when presented as a complex with serum LPS-binding protein. However, the identity of the receptor responsible for LPS signalling and leucocyte activation is unknown. Interestingly, mice deficient in cell-surface L-selectin were dramatically resistant to the lethal effects of high doses of LPS in a model of septic shock. Recently we reported that L-selectin binds to cardiolipin and other charged phospholipids at a site distinct from the carbohydrate-binding site. Structural similarities between charged phospholipids and the lipid A moiety of LPS prompted us to investigate interactions between L-selectin and LPS. Herein we show that L-selectin is a neutrophil surface receptor for LPS and lipotechoic acid. The binding of LPS to L-selectin is independent of serum and Ca2+, and is blocked by antibodies to L-selectin and fucoidan. Furthermore, the interaction of LPS with cell-surface L-selectin results in superoxide production, indicating that L-selectin can mediate both binding and activation of human neutrophils. These findings suggest novel therapeutic approaches for the treatment of septic shock.
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PMID:Role for L-selectin in lipopolysaccharide-induced activation of neutrophils. 897 71

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