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 extracted an R-form lipopolysaccharide (LPS) by the phenol-water method from Klebsiella sp. strain LEN-111 (O3-:KI-) and followed the changes in ultrastructure of the LPS during the extraction procedure. When the LPS was obtained from the water phase of an extract by addition of 2 volumes of 10 mM MgCI2-ethanol, it consisted of membrane pieces with a hexagonal lattice structure with a lattice constant of 14 to 15 nm. The lattice structure of the LPS was disrupted into short rods with sodium dodecyl sulfate, but the same hexagonal lattice structure was again formed by precipitation with 2 volumes of 10 mM MgCI2-ethanol. The LPS preparation after two cycles of treatment by the phenol-water method, which contained no detectable amounts of proteins, kept an unaltered ability to form the hexagonal lattice structure. Extensive treatment with pronase and extraction with chloroform did not impair the ability of the LPS preparation to form the lattice structure. When the other salts, NaCI, CaCI2 or Zn(CH3COO)2, were used for precipitation of the LPS with ethanol in place of MgCI2, the LPS did not form the hexagonal lattice structure. However, if the LPS precipitated with NaCI-ethanol was converted to the magnesium salt form after it was electrodialyzed, it formed the same hexagonal lattice structure as the LPS precipitated with MgCI2-ethanol. From these results, it was concluded that the R-form LPS has the ability of in vitro self-assembly into a hexagonal lattice structure in the presence of Mg2+ without the help of other components such as proteins and free lipids from outer membrane.
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PMID:Formation of a hexagonal lattice structure by an R-form lipopolysaccharide of Klebsiella sp. 399 76

It is well established that Pseudomonas aeruginosa cells grown in Mg2+-deficient medium acquire nonmutational resistance to the chelator ethylenediaminetetraacetate and to the cationic antibiotic polymyxin B; this type of resistance can be reversed by transferring the cells to Mg2+-sufficient medium for a few generations. Stable mutants resistant to polymyxin B were isolated and shown to have also gained ethylenediaminetetraacetate resistance. Both the mutants and strains grown on Mg2+-deficient medium had greatly enhanced levels of outer membrane protein H1 when compared with the wild-type strain or with revertants grown in Mg2+-sufficient medium. It was determined that in all strains and at all medium Mg2+ concentrations, the cell envelope Mg2+ concentration varied inversely with the amount of protein H1. In addition, the increase in protein H1 in the mutants was associated with an increase in resistance to another group of cationic antibiotics, the aminoglycosides, e.g., gentamicin. We propose that protein H1 acts by replacing Mg2+ at a site on the lipopolysaccharide which can otherwise be attacked by the cationic antibiotics or ethylenediaminetetraacetate.
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PMID:Outer membrane protein H1 of Pseudomonas aeruginosa: involvement in adaptive and mutational resistance to ethylenediaminetetraacetate, polymyxin B, and gentamicin. 625 25

The mechanism of macrophage activation by Ca2+ ionophore was studied. Peritoneal exudate macrophages from normal guinea pigs exposed continuously to or pulse treated for 1 hr with the ionophore, A23187, were activated, manifesting increased glucose consumption and inhibition of migration. Highly purified macrophages were also activated as effectively as crude macrophage preparations, and the culture supernatant of spleen lymphocytes treated with A23187 lacked a macrophage activating effect, showing that the macrophage activation resulted from the direct effect of A23187 on macrophages, not via lymphokines produced by lymphocytes. The macrophage activation by A23187 was suppressed in the presence of EGTA, but the suppressive effect was overcome by the addition of Ca2+, but not of Mg2+. A dilution experiment with Ca2+ and Mg2+ during the pulse treatment of cells with A23187 revealed that the activating effect of A23187 was more dependent on Ca2+ content than Mg2+. In addition, the Ca2+ antagonist, nicardipine, was found to suppress the activating effect of A23187. The Ca2+ uptake into macrophages was increased by treatment with A23187. These results indicate that Ca2+ influx into cells is primarily important in the macrophage activating effect of A23187. Trifluoperazine (TFP: a specific inhibitor of calmodulin that is an intracellular Ca2+ receptor protein) was found to inhibit the activating effect of A23187. Further, the cyclic nucleotides, dibutyryl-cAMP and -cGMP, did not activate macrophages. Therefore, macrophage activation was presumed not to be directly mediated by cyclic nucleotides. All these findings show that macrophage activation with the ionophore proceeds by the following scheme: Ca2+ influx leads to activation of Ca2+ receptor protein, calmodulin leads to activation of calmodulin-regulated enzymes leads to metabolic changes, activation. TFP was found to suppress the macrophage activation with highly purified guinea pig macrophage activation factor/macrophage migration inhibitory factor (MIF/MAF) or lipopolysaccharide (LPS), suggesting that calmodulin also played an important role in macrophage activation with MIF/MAF or LPS.
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PMID:The mechanism of macrophage activation induced by Ca2+ ionophore. 640 51

Hydrolysis of the chromogenic beta-lactam nitrocefin by periplasmic beta-lactamase in intact Pseudomonas aeruginosa cells was used to assess the influence of various compounds on the permeability of the P. aeruginosa outer membrane. In addition to the five previously described outer membrane-active compounds EDTA, polymyxin B, gentamicin, poly-L-lysine, and Tris, seven other compounds were shown to increase outer membrane permeability to nitrocefin by 14- to 63-fold. These other compounds included poly-L-ornithine, neomycin, cetyltrimethylammonium bromide, nitrilotriacetate, L-ascorbate, and acetylsalicylate. In each case, Mg2+ ions antagonized, to different extents, the enhancement of outer membrane permeability. The same compounds increased the permeability of the outer membrane to the protein lysozyme and to the hydrophobic fluorescent probe 1-N-phenylnaphthylamine, although L-ascorbate and acetylsalicylate showed only very weak enhancement of uptake in these assays. In this report, we discuss the possibility that these compounds act at a common outer membrane site at which divalent cations noncovalently cross-bridge adjacent lipopolysaccharide molecules.
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PMID:Compounds which increase the permeability of the Pseudomonas aeruginosa outer membrane. 643 88

It has been shown that nonimmune mouse sera contain a complement-dependent bactericidal factor that reacts specifically with Ra chemotype Salmonella. In this study we investigate a specific determinant to which this factor binds. This factor bound to Ra chemotype lipopolysaccharide (LPS) but not to S or Re chemotype LPS. The binding was markedly inhibited by N-acetyl-D-glucosamine (GlcNAc), which was the nonreducing terminal of the Ra polysaccharide chain and by certain monosaccharides structurally relating to L-glycero-D-mannoheptose, a terminal component of a side branch of Ra polysaccharide. The factor bound to the Ra bacteria could be eluted with a medium containing GlcNAc. These results indicate that the specific determinant is the polysaccharide region of LPS characteristic of Ra chemotype Salmonella. Ca2+ but not Mg2+ was required for the specific binding of the factor to cells of Ra bacteria. A molecule composed of a polypeptide of 28,000 m.w. was found in the active fraction obtained by the monosaccharide elution. However, no polypeptides corresponding to light and heavy chains of mouse immunoglobins were detected from the active fraction.
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PMID:A new complement-dependent bactericidal factor found in nonimmune mouse sera: specific binding to polysaccharide of Ra chemotype Salmonella. 703 60

The effect of sodium salicylate at a dose of 200 and 1000 mg/kg, per os, on body temperature and plasma cation pattern was investigated in healthy rabbits and those infected with 1 microgram/kg iv of lipopolysaccharide Escherichia coli (LPS). An increase in plasma Cu2+ and decrease in Fe2+ and Mg2+ concentration appeared to be the most important effect in LPS treated animals. Sodium salicylate in a dose-dependent manner attenuated the febrile response to LPS. Furthermore, this antipyretic antagonized the rise of Cu2+ concentration induced by pyrogen. Smaller increases of K+ and Mg2+ were observed during antipyresis than in the group of rabbits treated with sodium salicylate alone.
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PMID:The plasma cation pattern in fever and sodium salicylate antipyresis. 716 17

1. Purinoceptor agonist-induced currents in untreated (proliferating) and lipopolysaccharide- (LPS; 100 ng ml-1) treated (non-proliferating) rat microglial cells were recorded by the whole-cell patch-clamp technique. 2. In non-proliferating microglia, adenosine (0.01-100 microM), 2-methylthio ATP (3-3000 nM), ATP (0.1-1000 microM), and ATP-gamma-S (1-10 microM), but not alpha,beta-methylene ATP (alpha,beta-MeATP; 100 microM) produced a slow outward current at a holding potential of 0 mV. When K+ was replaced in the pipette solution by an equimolar concentration of Cs+ (150 mM), the 2-methylthio ATP- (300 nM) induced outward current disappeared. The effect of 2-methylthio ATP (300 nM) did not depend on the presence of extracellular Mg2+ (1 mM). The outward current response to 2-methylthio ATP (300 nM) was larger in proliferating than in non-proliferating microglia. 3. ATP (1-1000 microM) evoked a fast inward current at a holding potential of -70 mV in nonproliferating microglia, while adenosine (100-1000 microM) was inactive. When the effects of ATP were compared at 0 and -70 mV, it became evident that ATP is much more potent in evoking the outward current. 4. The 2-methylthio ATP- (300 nM) induced outward current was blocked by suramin (300 microM), but not by 8-(p-sulphophenyl)-theophylline (100 microM), while the adenosine- (1 microM) induced outward current had the reverse sensitivity to these antagonists. 5. The 2-methylthio ATP- (300 nM) induced outward current was inhibited by inclusion of GDP-beta-S(200 microM) into the pipette solution or by preincubation of microglial cells with pertussis toxin(50 ng ml-1) for 12 h. The 2-methylthio ATP- (300 microM) induced inward current was not changed by intracellular GDP-beta-S (200 microM). The outward current response to adenosine (1 microM) was also abolished after pretreatment with pertussis toxin (50 ng ml-1).6. Rat microglia possess both ATP-sensitive P2y- and adenosine-sensitive P1-purinoceptors. The ATP evoked inward current is mediated by P2y-purinoceptors, while the ATP- and adenosine-evoked outward currents are mediated by P2y- and P1-purinoceptors, respectively. The transduction mechanisms of the outward, but not the inward current activation involve a pertussis toxin-sensitive G protein.
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PMID:Characterization and transduction mechanisms of purinoceptors in activated rat microglia. 781 23

We have investigated the interaction of Salmonella minnesota R595 lipopolysaccharide (ReLPS) depleted of Ca2+ and Mg2+ with both Kupffer and endothelial liver cells under serum-free conditions. Specific and saturable binding levels of 125I-ReLPS were similar in both types of cells with respect to divalent cation independence, susceptibility to proteases, and concanavalin A inhibition. By using partial structures of ReLPS, it was demonstrated that acidic 3-deoxy-D-manno-octulosonic acid residues and phosphoryl groups on lipid A are of primary importance in ReLPS binding. The role of ionic interactions in LPS recognition by the cells was further confirmed by susceptibility of the binding to competitive inhibition by polyanions. Both ReLPS and ReLPS partial structures inhibited the specific cellular binding of acetylated low-density lipoprotein (Ac-LDL) by Kupffer cells and Ac-LDL- and formaldehyde-treated albumin by endothelial cells whose cellular accumulation is mediated by a different type(s) of scavenger receptor(s). In contrast, 125I-ReLPS binding to Kupffer and endothelial cells was not competed by Ac-LDL or formaldehyde-treated albumin. Our results indicate the scavenger pathway of LPS uptake by Kupffer and endothelial cells and the primary role of LPS anionic properties in this process.
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PMID:Scavenger receptor pathway for lipopolysaccharide binding to Kupffer and endothelial liver cells in vitro. 786 58

The algC gene from Pseudomonas aeruginosa has been shown to encode phosphomannomutase (PMM), an essential enzyme for biosynthesis of alginate and lipopolysaccharide (LPS). This gene was overexpressed under control of the tac promoter, and the enzyme was purified and its substrate specificity and metal ion effects were characterized. The enzyme was determined to be a monomer with a molecular mass of 50 kDa. The enzyme catalyzed the interconversion of mannose 1-phosphate (M1P) and mannose 6-phosphate, as well as that of glucose 1-phosphate (G1P) and glucose 6-phosphate. The apparent Km values for M1P and G1P were 17 and 22 microM, respectively. On the basis of Kcat/Km ratio, the catalytic efficiency for G1P was about twofold higher than that for M1P. PMM also catalyzed the conversion of ribose 1-phosphate and 2-deoxyglucose 6-phosphate to their corresponding isomers, although activities were much lower. Purified PMM/phosphoglucomutase (PGM) required Mg2+ for maximum activity; Mn2+ was the only other divalent metal that showed some activation. The presence of other divalent metals in addition to Mg2+ in the reaction inhibited the enzymatic activity. PMM and PGM activities could not be detected in nonmucoid algC mutant strain 8858 and in LPS-rough algC mutant strain AK1012, while they were present in the wild-type strains as well as in algC-complemented mutant strains. This evidence suggests that AlgC functions as PMM and PGM in vivo, converting phosphomannose and phosphoglucose in the biosynthesis of both alginate and LPS.
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PMID:Purification and characterization of phosphomannomutase/phosphoglucomutase from Pseudomonas aeruginosa involved in biosynthesis of both alginate and lipopolysaccharide. 805 Sep 98

Bactericidal/permeability-increasing protein (BPI) is a potent antimicrobial agent produced by polymorphonuclear leucocytes that specifically interacts with and kills Gram-negative bacteria. An 825 bp gene determining the bactericidal N-terminal domain of human BPI was chemically synthesized and expressed as inclusion bodies in Escherichia coli. The recombinant polypeptide, BPI', was solubilized and conditions under which it folded to give the active protein were determined. Folding was critically dependent on the urea and salt concentrations as well as the pH. BPI' bound with high affinity to Salmonella typhimurium cells (apparent Kd = 36 nM), permeabilized their outer membranes to actinomycin D, specifically activated a synovial fluid phospholipase A2 and showed potent bactericidal activity. In contrast with the native protein, however, it could not be efficiently released from the cell surface by the addition of high concentrations of Mg2+ ions. Pre-incubation of the protein with lipopolysaccharide or trypsin prevented cytotoxicity. However, boiling BPI' immediately before its addition to cells did not block its bactericidal activity, suggesting that it may be able to function even when presented to cells in an unfolded form. A BPI' derivative, containing a 13-residue foreign antigenic determinant genetically inserted between Ala115 and Asp116, was also produced. The derivative was functional in the above assays and bound with high affinity to S. typhimurium (apparent Kd = 74 nM). These results imply that the region defined by these residues is not involved in the lipopolysaccharide-binding or bactericidal activities of BPI. The availability of functional, nonglycosylated recombinant derivatives of BPI should greatly aid detailed studies on its structure, interactions with lipopolysaccharide and mechanism of action.
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PMID:The region around residue 115 of human bactericidal/permeability-increasing protein is not involved in lipopolysaccharide binding or bactericidal activity. Chemical synthesis and expression of a gene coding for the active domain and characterization of recombinant proteins. 814 87

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