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)

Modulation of protein expression during interferon-gamma (IFN-gamma)-lipopolysaccharide (LPS)-mediated macrophage tumoricidal activation has been examined by metabolic radiolabeling of various murine peritoneal macrophage populations with [35S]methionine followed by SDS-PAGE analysis. Although both IFN-gamma and LPS are capable of stimulating the expression of several proteins when used independently, combined treatment induced the enhanced or de novo expression of a 120,000 dalton polypeptide. The expression of this protein was synergistically regulated by both IFN-gamma and LPS in a manner strongly reminiscent of the functional synergism that these two agents exhibit with respect to induction of tumoricidal activity. p120 expression could be seen first at approximately 3 hr after the addition of both agents, reached optimal expression by 6 hr, and maintained elevated synthesis for up to 24 hr. This time course corresponds closely to that seen for the acquisition of tumoricidal competence. Macrophages elicited in the primed state of activity in vivo with methyl vinyl ether co-polymer II (MVE-II) did not express p120, but could be induced to do so when treated with low doses of LPS. Under similar conditions, MVE-II-elicited cells also acquire tumoricidal activity. Macrophages obtained from mice chronically infected with bacillus Calmette-Guerin constitutively expressed both p120 and cytolytic activity. If such macrophages were cultured for 24 hr, the expression of both events decayed and was lost, but could be restored by treatment with low doses of LPS. Thus the data support a strong correlation between the expression by macrophages of a novel 120,000 dalton protein and the expression of tumor cytotoxicity.
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PMID:Expression of a 120,000 dalton protein during tumoricidal activation in murine peritoneal macrophages. 310 74

Growth of Pseudomonas aeruginosa PAO1 at 15 to 45 degrees C in tryptic soy broth resulted in changes in the lipids, lipopolysaccharides (LPSs), and outer membrane proteins of the cells. Cells grown at 15 degrees C contained, relative to those cultivated at 45 degrees C, increased levels of the phospholipid fatty acids hexadecenoate and octadecenoate and reduced levels of the corresponding saturated fatty acids. Furthermore, the lipid A fatty acids also showed thermoadaptation with decreases in dodecanoic and hexadecanoic acids and increases in the level of 3-hydroxydecanoate and 2-hydroxdodecanoate as the growth temperature decreased. In addition, LPS extracted from cells cultivated at the lower temperatures contained a higher content of long-chain S-form molecules than that isolated from cells grown at higher temperatures. On the other hand, the percentage of LPS cores substituted with side-chain material decreased from 37.6 mol% at 45 degrees C to 19.3 mol% at 15 degrees C. The outer membrane protein profiles indicated that at low growth temperatures there was an increase in a polypeptide with an apparent molecular weight of 43,000 and decreases in the content of 21,000 (protein H1)- and 27,500-molecular-weight proteins.
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PMID:Effect of growth temperature on the lipids, outer membrane proteins, and lipopolysaccharides of Pseudomonas aeruginosa PAO. 310 25

Mononuclear phagocytes release interleukin-1 (IL-1), a 17-kDa polypeptide with diverse biological activities. IL-1 is synthesized as a precursor (31 kDa) which lacks a signal sequence or hydrophobic domains that could facilitate transmembrane translocation. Possible postsynthetic modifications of IL-1 that might account for its cellular transport were examined. We found that lipopolysaccharide stimulated, but not unstimulated, murine macrophages incorporated 32PO4 into the IL-1 alpha precursor (31 kDa) predominantly at residue serine 90. Released IL-1 alpha (17 kDa) is not phosphorylated in agreement with peptide sequence data that the site of 32P incorporation is in the amino-terminal one-third of the precursor. Approximately 10% of the phosphorylated IL-1 alpha precursor is membrane bound and associated with a fraction enriched in lysosomal vesicles. Together these data suggest mechanisms by which the postsynthetic proteolysis of the IL-1 alpha precursor may be modified and cellular transport of IL-1 alpha is accomplished.
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PMID:The precursor of interleukin-1 alpha is phosphorylated at residue serine 90. 312 84

Lipopolysaccharide-rich vesicles were released from Acinetobacter calcoaceticus 69V during growth on hexadecane. Vesicle formation occurred over the whole surface of the cell as demonstrated by scanning electron microscopy. In contrast, the surface of acetate-grown cells, for which little lipopolysaccharide was found in the growth medium, appeared smooth. The overall chemical composition as well as the protein and phospholipid composition of the outer membranes of both cell types was very similar. In the vesicles all outer membrane proteins were found with the exception of an Mr 10,000 polypeptide corresponding to Braun's lipoprotein. Compared with the outer membrane, the vesicles contained more phosphatidylethanolamine. Hexadecane-grown cells were susceptible to exogenously added phospholipase. Nevertheless the barrier function towards lysozyme was retained.
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PMID:Effect of hexadecane-induced vesiculation on the outer membrane of Acinetobacter calcoaceticus. 324 92

The polypeptide interleukin-1 (IL-1) is a cytokine that may mediate inflammation and connective tissue damage in rheumatoid arthritis (RA). We examined cytokine production by normal blood and by rheumatoid synovial mononuclear cells with sensitive (picomolar) assays. The assays were immunolabeling and immunoblotting with rabbit anti-IL-1 beta sera, and proliferation of the murine D10 cell line to IL-1. Little or no cytokine was detected in rheumatoid joint fluid or in exudate mononuclear cells from patients with acute rheumatoid flares. The mononuclear cells could be induced to make IL-1 upon stimulation with lipopolysaccharide (LPS). The responsive cells were monocytes, since all could be double-labeled with anti-IL-1 and the monocyte-specific CD14 antibody. More than 80% of the synovial fluid monocytes made IL-1 beta after 24 hr in 2 ng/ml LPS. Other agents failed to induce IL-1 from enriched populations of monocytes including interferon gamma (IFN-gamma), poly (I/C), phorbol myristate acetate (PMA), concanavalin A (Con A), phytohemagglutinin (PHA), and anti-CD3 antibodies. Relatively high levels of dendritic cells (DC) were present in RA effusions, but these did not produce IL-1 in response to any of the above stimuli. Blood dendritic cells also did not make IL-1, whereas blood monocytes responded comparably to synovial exudate cells. The data indicate that rheumatoid exudate monocytes make very little IL-1 during acute flares of arthritis and that this cytokine is primarily a macrophage rather than a dendritic cell product.
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PMID:Interleukin-1 production by mononuclear cells from rheumatoid synovial effusions. 326 May 44

The production of chicken myelomonocytic growth factor (cMGF) can be rapidly induced by bacterial lipopolysaccharide from the macrophage cell line HD11. Immunoprecipitation analysis of lipopolysaccharide-induced HD11 cells labeled with various radioactive precursors showed the secretion of a variety of cMGF forms. The precursor-product relationships of the different cMGF forms were studied by pulse-chase experiments, by long-term metabolic labeling in the presence or absence of glycosylation- and oligosaccharide-processing inhibitors, as well as by glycosidase treatment of immunoprecipitates. Our results show that the half-time for intracellular processing/secretion is less than 10 min, making cMGF one of the most rapidly processed proteins. The different forms of the factor are generated from a 24-kDa polypeptide precursor by co- and post-translational acquisition of one or two N-linked oligosaccharides and by O-linked glycosylation. In addition, a fraction of cMGF is modified by long chain, chondroitinase-sensitive, sulfated glycans. This modification is tunicamycin-sensitive, suggesting that the sulfated glycans are attached to N-linked rather than to O-linked oligosaccharides.
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PMID:Hematopoietic growth factor glycosylation. Multiple forms of chicken myelomonocytic growth factor. 327 26

Many bacterial toxins are proteins, encoded by the bacterial chromosomal genes, plasmids or phages. Lysogenic phages form part of the chromosome. The toxins are usually liberated from the organism by lysis, but some are shed with outer membrane proteins in outer membrane vesicles. An important non-protein toxin is lipopolysaccharide or endotoxin, which is a constituent of the cell wall of gram negative bacteria. Toxins may damage the eukaryotic cell membrane by combining with some structural component, or otherwise alter its function. Many toxins combine with specific receptors on the surface membrane, frequently glycoproteins or gangliosides, and penetrate the cell to reach their intracellular target. A common mechanism of entry is absorptive endocytosis. Many protein toxins have an A-B structure, B being a polypeptide which binds to the receptor and A being an enzyme. Many toxins are activated, either when produced by the bacterium or when bound to the membrane receptor, by proteases (nicking). An enzymatic process common to many toxins is adenosine diphosphate (ADP)-ribosylation of the adenylate cyclase regulatory proteins, leading to an increase in intracellular cyclic adenosine monophosphate (cAMP). This is the mechanism of action of cholera toxin. Diphtheria toxin catalyzes the transfer of ADP-ribose to elongation factor-2, inhibiting protein synthesis. Most toxins act on the target cells to which they bind, but tetanus toxin, and, to a lesser degree, botulinum toxin, ascend axons and affect more distant structures. Although many toxin effects caused by bacteria have been described, only a few toxins have been identified, characterized, and their mode of action determined at the molecular level. The best known of these are discussed.
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PMID:Bacterial toxins. 328 62

A study by crossed immunoelectrophoresis performed in conjunction with precipitate excision and polypeptide analysis identified a new antigen complex in the envelope of Escherichia coli ML308-225. This antigen corresponds to antigen 43 in the crossed immunoelectrophoresis profile of membrane vesicles (P. Owen and H. R. Kaback, Proc. Natl. Acad. Sci. USA 75:3148-3152, 1978). Immunoprecipitation experiments conducted with specific antiserum revealed that the complex was expressed on the cell surface and that it contained, in equal stoichiometry, two chemically distinct polypeptides termed alpha and beta (Mrs of 60,000 and 53,000, respectively). The beta polypeptide was heat modifiable, displaying an apparent Mr of 37,000 when solubilized at temperatures below 70 degrees C. Analysis of fractions obtained following cell disruption, isopycnic centrifugation, and detergent extraction indicated that both alpha and beta polypeptides were components of the outer membrane. The two polypeptides were not linked by disulfide bonds, and neither was peptidoglycan associated. The complex contained no detectable lipopolysaccharide, enzyme activity, fatty acyl groups, or other cofactors. Neither correlated with E. coli proteins of similar molecular weight which had previously been shown to be associated with the outer membrane. Antibodies were raised to individual alpha and beta polypeptides. Each of these sera was shown to be subunit specific when tested against denatured membrane proteins. In contrast, each immunoglobulin preparation coprecipitated both alpha and beta polypeptides when tested against undenatured proteins derived from Triton X-100-treated membranes. The results reveal the presence of a novel bipartite protein antigen in the outer membrane of E. coli.
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PMID:Identification and partial characterization of a novel bipartite protein antigen associated with the outer membrane of Escherichia coli. 330 15

The minimal intraperitoneal (i.p.) immunogenic doses of phenol-hot water lipopolysaccharide (P-W- LPS) preparations from three strains of Serratia marcescens for juvenile NMRI mice ranged from 3.2 to 16 ng following i.p. challenge infection with homologous strains. Dual autoclaving (121 degrees C, 15 min) abolished the cross-immunogenicity of two selected P-W LPS extracts. Four purified metalloproteases from S. marcescens strains SF 178, SH 186, SV O1, and SE 182 shared the following properties: a) inhibition of proteolytic (azocasein hydrolysis) activity by 50 mM of EDTA; b) heat-lability (60 degrees C, 15 min); c) identical molecular weights (54,000 Daltons = 54 K) as documented with the SDS-PAGE procedure; d) close serologic relatedness (ELISA technique, polyclonal rabbit immune sera); and e) uniform reactivity of the 54 K polypeptide bands with polyclonal rabbit anti-metalloprotease immune sera (Western blots). The minimal immunogenic dose of metalloprotease SF 178, the sole significantly murine immunogenic enzyme, was 1000 ng = 1 microgram.
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PMID:Active immunization of NMRI mice against Serratia marcescens. I. Phenol-water lipopolysaccharide fractions and purified metalloproteases. 331 56

Eleven strains of Treponema hyodysenteriae isolated from pigs with swine dysentery were examined by using sodium dodecyl sulfate-polyacrylamide gel electrophoresis and immunoblotting. T. hyodysenteriae strains formed a homogeneous group with respect to sodium dodecyl sulfate-soluble proteins. However, immunoblotting with antiserum from rabbits immunized with T. hyodysenteriae CN8368 revealed heterogeneity among the lipopolysaccharide complexes of different strains. Polypeptides of molecular weights between 30,000 and 36,000 were the predominant T. hyodysenteriae polypeptides detected by porcine immune serum. In contrast, Treponema innocens did not form a homogeneous group with respect to sodium dodecyl sulfate-soluble proteins. Adsorption studies and immunoblotting identified polypeptide antigens present on cells of T. hyodysenteriae which were not detected on cells of T. innocens. These unique antigens may play a role in the virulence of T. hyodysenteriae.
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PMID:Identification of the major antigens of Treponema hyodysenteriae and comparison with those of Treponema innocens. 335 59

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