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)

By crossed immunoelectrophoresis, 85 different antigens were demonstrated in sonicated preparations of Legionella pneumophila serogroup 1 (Lp1). The precipitin patterns of 82 anodic-migrating antigens were numbered and were designated the Lp1 reference system. Eleven antigens were stable to boiling, and seven of these were shown to be surface antigens. One heat-stable surface antigen (antigen no. 61) was highly reactive with limulus amoebocyte lysates and formed a precipitin resembling lipopolysaccharide. Serum from an isolation confirmed case of Lp1 infection and serogroup-specific rabbit antiserum reacted specifically with antigen no. 61, which was designated the serogroup-specific antigen. Normal human and rabbit sera commonly had antibodies to antigen no. 66 of the Lp1 reference system. This antigen is antigenically related to the "common antigen" of Pseudomonas aeruginosa.
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PMID:Crossed immunoelectrophoretic analysis of Legionella pneumophila serogroup 1 antigens. 684 Aug 45

The in-vitro adhesion of Vibrio cholerae to intestinal mucous membrane was studied in isolated adult-rabbit ileal loops. Antisomatic antiserum Against V. cholerae Inaba could inhibit adhesion of three different strains of V. cholerae Inaba but had no effect on the adhesion of two different strains of enterotoxigenic NAG vibrios. The antiserum's bacterial agglutinin titre was 320, its anti-Inaba lipopolysaccharide (LPS) titre was 16 000 and its anti-flagellar antibody titre was 3200. Conversely, anti-live V. Cholerae Inaba antiserum absorbed with boiled cells of Inaba and devoid of antisomatic antibody, could not inhibit adhesion of the same three strains of V. cholerae Inaba. This antiserum had no anti-LPS or bacterial agglutinin activity, but its anti-flagellar antibody titre was 32 000. Thus, ability to inhibit adhesion of V. cholerae could be correlated only with antisomatic (anti-LPS) antibody activity. Antisomatic antiserum had no activity against 'adhesion', a V. cholerae surface antigen described by Freter. Conversely anti-live V. cholerae antiserum absorbed with boiled cells showed anti-adhesion activity even at a dilution of 1 in 200. LPS preparations from V. cholerae strain 569B Inaba could inhibit adhesion of two different Inaba strains to the intestinal mucous membrane. It is concluded that the somatic antigen plays a major role in the adhesion of V. cholerae to the intestinal mucous membrane.
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PMID:Role of somatic antigen of Vibrio cholerae in adhesion to intestinal mucosa. 714 26

The signal transduction events that follow the binding of lipopolysaccharide (LPS) to the macrophage cell surface are not well defined. In the current studies LPS was found to induce alterations in phosphorylation of monocyte proteins on tyrosine. Herbimycin A and genistein, inhibitors of tyrosine kinases, markedly attenuated LPS-induced tumor necrosis factor-alpha (TNF-alpha) and interleukin-6 (IL-6) protein and mRNA production. Reciprocally, the tyrosine phosphatase inhibitor sodium orthovanadate enhanced LPS-induced production of TNF-alpha. LPS induced a concentration-dependent increase in tyrosine phosphorylation of several proteins, which paralleled and preceded the onset of LPS-induced TNF-alpha production. LPS stimulation had different but reproducible effects on three members of the src family of tyrosine kinases. Both Hck and Lyn kinase activity increased before the onset of TNF-alpha production, consistent with their participation in the observed LPS-induced tyrosine phosphoprotein accumulation. In contrast, Yes kinase activity was not affected. These observations were made at concentrations of LPS that required serum rich in LPS-binding protein and the monocyte surface antigen CD14 for TNF-alpha production. These data indicate that tyrosine kinases and phosphatases are involved in the signal transduction cascade by which LPS induces production of TNF-alpha and IL-6 by human monocytes, and suggest that Lyn and Hck are candidate participants in this process.
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PMID:Lipopolysaccharide-induced cytokine production in human monocytes: role of tyrosine phosphorylation in transmembrane signal transduction. 751 9

Local activation of macrophages may play an important role in immune complications following lung transplantation. To document such a phenomenon, we have investigated the possible changes of alveolar macrophage surface antigen expression after lung transplantation. Using immunocytofluorometry, we have analyzed the phenotype of alveolar macrophages from 41 bronchoalveolar lavage fluids obtained from 19 lung transplant recipients displaying various complications. The strong expression of HLA-DR observed on almost all alveolar macrophages was similar among groups I (no complication), II (minimal acute rejection), and III (mild to severe acute rejection), but was enhanced in group IV (bronchial infection) (P < 0.03). We observed no significant variation in the monocyte lineage CD14 antigen expression among the 4 groups, and about 83% of alveolar macrophages expressed this marker strongly. Membrane expression of the 27E10 antigen that characterizes infiltrating macrophages in acute inflammatory lesions was significantly higher during mild to severe rejection episodes than in controls (P < 0.02) and during bronchial infections (P < 0.05) but not during minimal rejection. Double staining experiments confirmed that 27E10-positive cells in groups III and IV belonged to the macrophage lineage. In addition, the expression of the 27E10 antigen on cultured alveolar macrophages was found to be increased after stimulation by bacterial lipopolysaccharide or IFN-gamma. These results indicate that a particular alveolar macrophage subpopulation is activated during immune events after lung transplantation. This population, recognized by the 27E10 mAb, might be involved in cytokine production during severe acute rejection and infection episodes.
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PMID:Emergence of inflammatory alveolar macrophages during rejection or infection after lung transplantation. 751 88

The effect of staphylococcal enterotoxin B (SEB)-elicited inducible nitric oxide synthase (iNOS) in mouse endothelial cells was investigated. Results showed that SEB stimulated the same level of NO production in gamma interferon (IFN-gamma)-primed cells as did trichloroacetic acid-extracted lipopolysaccharide. The kinetics of induced NO production and expression of mRNA for iNOS differed markedly in endothelial and macrophage cells. Induced endothelial nitrite production was transient and was 15 to 20% of that generated by macrophage cells; mRNA levels peaked by 2 h and then steadily declined, whereas macrophage message levels continually increased. The ability of endothelial cells to produce SEB-induced NO depended on priming with IFN-gamma, although detectable mRNA could be elicited by SEB alone. Induction of endothelial iNOS mRNA was inhibited by cycloheximide, which indicated a requirement for de novo protein synthesis. Niacinamide and interleukin-10 significantly reduced SEB-induced endothelial NO production. Both are reported to affect IFN-gamma-induced class II major histocompatibility complex (MHC) expression on antigen-presenting cells. Niacinamide reduced iNOS mRNA levels and markedly reduced IFN-gamma induction of endothelial class II MHC surface antigen. Interleukin-10 did not consistently reduce iNOS mRNA expression and had no effect on IFN-gamma induction of endothelial class II MHC surface antigen. These results suggest that SEB interacts with IFN-gamma-primed endothelial cells to elicit induced NO and that this induction can be effectively modulated at the receptor or transcriptional level.
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PMID:Regulation of staphylococcal enterotoxin B-elicited nitric oxide production by endothelial cells. 752 48

A family of beta-galactoside-binding animal lectins has recently been designated as galectins. One member of this family, galectin-3, has been known as epsilon BP for its IgE-binding activity and as Mac-2, a macrophage surface antigen, CBP35, CBP30, L-29, and L-34. Although much information has accumulated on the expression of this lectin in murine macrophages and human monocytic cell lines, little is known about the expression and function of this protein in normal human monocytes/macrophages. We now report that galectin-3 is expressed in normal human peripheral blood monocytes and its level increases dramatically as human monocytes differentiate into macrophages upon culturing in vitro. Immunoblot analysis showed that there was a 5-fold increase in the level of galectin-3 after 1 day of culture and greater than a 12-fold increase after 5 days. Immunocytochemical analysis confirmed this progressive increase of galectin-3 expression in cultured monocytes. Immunogold cytochemistry/electron microscopy analysis revealed that galectin-3 was expressed on the surface of human monocytes and that the level of cell surface galectin-3 increased progressively as these cells differentiated into macrophages. The level of galectin-3 in human monocytes/macrophages was modulated by stimuli such as lipopolysaccharide and interferon-gamma, and galectin-3 was secreted when monocytes were stimulated by calcium ionophore A23187 Soluble galectin-3 caused superoxide release from human monocytes; this activity was dependent on the lectin property of galectin-3, as it was inhibitable by lactose. Thus, galectin-3 may modulate the function of this cell type in an autocrine or paracrine fashion through binding to cell surface glycoconjugates.
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PMID:Expression and function of galectin-3, a beta-galactoside-binding lectin, in human monocytes and macrophages. 757 47

Previously, the double-transposon (Tn) mutant VAN20 of Vibrio anguillarum (Va) 775.17B was isolated. This mutant lacked a major surface antigen (MSA) suggested to be a lipopolysaccharide (LPS) and showed a 10(5)-fold increase in the 50% lethal dose (LD50) when fish were infected intraperitoneally. In this study, the two Tn insertion sites within the chromosome were identified, a plasmid insertion mutation was made at each locus in a more virulent strain of Va, NB10, and the virulence was analyzed. One mutant displayed a 10(4)-fold increase in LD50, whereas the second mutant showed the wild-type (wt) phenotype. However, both mutants still expressed the MSA, suggesting that there may be more than two Tn insertions in VAN20 or that a double mutation is required to prevent production of the MSA. The DNA locus for the virulent phenotype was cloned and sequenced. A potential transcriptional unit consisting of three putative open reading frames (ORFs) was identified. The Tn was located in the second ORF, virC (virulence). The first ORF (34.8 kDa) showed 30% homology to the Escherichia coli and Salmonella typhimurium cysG (cysteine) genes. The virC gene (51.4 kDa) and the third ORF (24 kDa) showed no homology to other proteins in GenBank. Plasmid insertion mutants were made within each of these ORFs and the virulence was assayed. Only the virC mutant showed a loss in virulence, indicating that virC is a novel gene that is essential for the virulence of Va.
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PMID:Sequence of a novel virulence-mediating gene, virC, from Vibrio anguillarum. 759 Mar 30

The engagement of cell-surface antigen receptors on B lymphocytes by anti-IgM antibodies leads to the rapid tyrosine phosphorylation and activation of the protein-tyrosine kinase, PTK72. High concentrations of anti-IgM, which promote cell cycle entry and progression through G1, result in a biphasic change in the state of tyrosine phosphorylation of PTK72. An initial, rapid increase is seen within 5 min, which slowly declines to the level found in resting cells over a period of 9 h. A second increase is then observed 18-30 h following the initial stimulation. Low concentrations of anti-IgM, which promote cell cycle entry but not progression through G1, result only in the initial, rapid phosphorylation. The polyclonal mitogens lipopolysaccharide and dextran sulfate, which stimulate both cell cycle entry and progression to late G1, result only in the second, late phase of tyrosine phosphorylation. This second phase of elevated tyrosine phosphorylation is cell cycle-dependent, as demonstrated by its appearance in cells blocked at G1/S and absence in cells blocked at G2/M. The increase in the tyrosine phosphorylation of PTK72 is accompanied by an increase in its activity with no change in its concentration. These data suggest a possible second role for PTK72 in the commitment of activated B cells to proliferation.
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PMID:Cell cycle-specific activation of the PTK72 protein-tyrosine kinase in B lymphocytes. 767 95

Human Mono Mac 6 cells exhibit characteristics of mature blood monocytes. Treatment of these cells with human recombinant human tumor necrosis factor (TNF) resulted in an increase in phagocytosis and phorbol myristate acetate-stimulated superoxide anion production at 12 h and growth retardation occurring at 24 h. Moreover, TNF induced a moderate increase of CD14 surface antigen expression, used as a phenotypic marker of monocyte/macrophage differentiation. Platelet-activating factor (PAF) stimulated a rapid rise in cytosolic free Ca++ ([Ca++]i) of 308 +/- 93 nM in TNF-treated cells compared to untreated cells (33 +/- 8 nM, n = 4). The effect of TNF was dose and time dependent, evident after 12 h and maximal at 48 h. The enhanced PAF-induced [Ca++]i rise was inhibited by the PAF receptor antagonist L-659,989 and EGTA, indicating receptor-dependent Ca++ influx. Furthermore, L-659,989 and PAF inhibited specific 3H-labeled PAF binding in TNF-treated, but not in untreated cells. Consistently, PAF stimulated arachidonic acid release only in TNF-treated cells. Preincubation of cells with anti-TNF monoclonal antibodies abolished TNF-induced effects, but failed to block lipopolysaccharide (LPS) effects. Distinct mechanisms of action by LPS were reflected by the different ability to induce surface antigen expression. In conclusion, the enhancement of PAF responses by TNF, associated with functional characteristics of differentiation in Mono Mac 6 cells, may represent a specific mechanism of cooperative interaction between PAF and TNF in inflammation, sepsis, immunoregulation and atherogenesis.
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PMID:Tumor necrosis factor induces enhanced responses to platelet-activating factor and differentiation in human monocytic Mono Mac 6 cells. 768 99

The calcium-regulating hormone 1,25-dihydroxyvitamin D3 (1,25(OH)2D3) is recognized as an immunomodulator. Members of the macrophage-monocyte lineage are targets for 1,25(OH)2D3 action. The hormone enhances the ability of bone marrow-derived macrophages (BMDMs) to produce H2O2, increases the expression of the macrophage specific surface antigen MAC-2, increases the release of tumor necrosis factor-alpha (TNF-alpha), and inhibits BMDM proliferation. In the present study we examine the possibility that estrogen modulates 1,25(OH)2D3 effects on BMDMs. The active form, 17 beta-estradiol, failed to affect any of the BMDM functions by itself. On the other hand, 17 beta-estradiol increased the effects of 1,25(OH)2D3 production by BMDMs and on MAC-2 expression on these cells. The inactive estrogen analog 17 alpha-estradiol was unable to elicit these effects. Moreover, 17 beta-estradiol was unable to elicit these effects. Moreover, 17 beta-estradiol did not affect the lipopolysaccharide (LPS)-induced increase in H2O2 production by BMDMs. Modulation of BMDM proliferation and TNF-alpha release from these cells by 1,25(OH)2D3 were not affected by the estrogen. The experiments were performed with BMDMs harvested from vitamin D-depleted and repleted mice, and always under similar conditions, the various functions were more pronounced in the cells derived from the repleted mice. Our data are consistent with the hypothesis that 17 beta-estradiol modulates the interactions of 1,25(OH)2D3 with BMDMs and consequently is able to affect biological responses to 1,25(OH)2D3 in these cells. We propose that this cell system is a convenient, nontransformed model for studying cellular activities of 1,25(OH)2D3.
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PMID:Modulation of vitamin D increased H2O2 production and MAC-2 expression in the bone marrow-derived macrophages by estrogen. 792 86

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