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)

The aim of this study was to investigate the distribution pattern of Ca2+- and Mg2+-dependent ecto-ATPases on the surface of rat brain capillary endothelial cells (ECs) in control and lipopolysaccharide (LPS)-treated animals. Ecto-ATPases in the membrane of vascular endothelial cells are suggested to play a crucial role in thromboregulation. Loss of this enzyme activity after oxidative stress and upregulation of the enzyme chain hydrolyzing extracellular ATP after transient forebrain ischemia have also been reported. We used histochemistry to localize the activities of this enzyme on ECs and found pH- and cation-dependent changes in the localization of enzyme activity both in control and in LPS-treated animals. These findings suggest the presence of more than one ecto-ATPase enzyme on the surface of rat capillary ECs. The different behavior of ECs after LPS treatment is the target of further investigations. The increased ecto-nucleotidase activity might play a role in nucleotide-mediated cellular responses after bacterial infections.
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PMID:Lipopolysaccharide treatment modifies pH- and cation-dependent ecto-ATPase activity of endothelial cells. 1002 41

F12W-magainin 2 preferentially interacted with lipopolysaccharide-containing bilayers, permeabilizing the membranes, compared with lipopolysaccharide-free phosphatidylcholine vesicles. Using this system, we demonstrated for the first time that the magainin peptide forms a helix upon binding to lipopolysaccharide. Incorporation of lipid A into phosphatidylcholine liposomes also enhanced interactions with the peptide. The presence of Mg2+, which nullifies the peptide's antibacterial activity against gram-negative bacteria, again weakened the interactions between the peptide and lipopolysaccharide-doped bilayers. This system seems to be useful for investigating the molecular details of peptide-lipopolysaccharide interactions.
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PMID:Interactions of an antimicrobial peptide, magainin 2, with lipopolysaccharide-containing liposomes as a model for outer membranes of gram-negative bacteria. 1033 36

R-form lipopolysaccharide (LPS) from Klebsiella pneumoniae strain LEN-111 (O3-: K1-), which was precipitated by the addition of 2 volumes of ethanol containing 10 mM MgCl2 for the purification process, ultrastructurally exhibited membrane pieces consisting of an ordered hexagonal lattice structure with a lattice constant of 14 to 15 nm. When the R-form LPS was suspended in 50 mM tris (hydroxymethyl) aminomethane buffer (at pH 8.5) containing 1 mM or higher concentrations of CaCl2 and kept at 4 C for 10 hr, the ordered hexagonal lattice structure of the R-form LPS was disintegrated and changed to an irregular rough, mesh-like structure. By treatment with CaCl2, the content of Mg in the LPS was markedly decreased, and conversely, the content of Ca was increased to a level depending upon the concentration of CaCl2. Results indicate that the addition of CaCl2 to suspensions of the Mg-bound R-form LPS result in a tighter binding of Ca2+ to the R-form LPS and the release of Mg2+ from the R-form LPS, and as a consequence, destroys the Mg2+ -induced ordered hexagonal lattice structure of the R-form LPS.
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PMID:Disintegration of Mg2+ -induced hexagonal assembly of an R-form lipopolysaccharide from Klebsiella pneumoniae by treatment with CaCl2. 1078 7

The magnesium salt of R-form lipopolysaccharide (LPS) from Klebsiella pneumoniae strain LEN-111 (O3-:K1-) that was prepared after the removal of cationic materials by electrodialysis formed essentially the same ordered hexagonal lattice structure with a lattice constant of 14 to 15 nm as the original non-electrodialyzed preparation of the R-form LPS. When the magnesium salt was suspended in 50 mM glycine buffer or Tris buffer at pH 1.4 to 9.5 and kept at 4 C for 24 hr, its content of Mg was markedly decreased, and its hexagonal lattice structure was changed to a swollen hexagonal lattice structure with extended lattice constants at pH 1.4 and to a loose mesh-like structure at pH 3.0 or higher. In the original non-electrodialyzed preparation of the R-form LPS, the release of Mg and disintegration of the hexagonal lattice structure did not occur by suspending in buffers at pH 1.4 to 8.5 at 4 C for 24 hr, but occurred only at pH 9.0 or higher. The results suggest that organic cations that can be removed by electrodialysis play some part in tight binding to Mg2+ and in stabilizing the ordered hexagonal assembly of the R-form LPS.
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PMID:Hexagonal assembly of the magnesium salt of an R-form lipopolysaccharide from Klebsiella pneumoniae: its lowered stability compared with original non-electrodialyzed preparation. 1088 59

In this work, we describe the ability of living hemocytes from an insect (Manduca sexta, Lepidoptera) to hydrolyze extracellular ATP. In these intact cells, there was a low level of ATP hydrolysis in the absence of any divalent metal (8.24 +/- 0.94 nmol of Pi/h x 10(6) cells). The ATP hydrolysis was stimulated by MgCl2 and the Mg2+-dependent ecto-ATPase activity was 15.93 +/- 1.74 nmol of Pi/h x 10(6) cells. Both activities were linear with cell density and with time for at least 90 min. The addition of MgCl2 to extracellular medium increased the ecto-ATPase activity in a dose-dependent manner. At 5 mM ATP, half-maximal stimulation of ATP hydrolysis was obtained with 0.33 mM MgCl2. This stimulatory activity was not observed when Ca2+ replaced Mg2+. The apparent Km values for ATP-4 and Mg-ATP2- were 0.059 and 0.097 mM, respectively. The Mg2+-independent ATPase activity was unaffected by pH in the range between 6.6 and 7.4, in which the cells were viable. However, the Mg2+-dependent ATPase activity was enhanced by an increase of pH. These ecto-ATPase activities were insensitive to inhibitors of other ATPase and phosphatase activities, such as oligomycin, sodium azide, bafilomycin A1, ouabain, furosemide, vanadate, sodium fluoride, tartrate, and levamizole. To confirm the observed hydrolytic activities as those of an ecto-ATPase, we used an impermeant inhibitor, DIDS (4,4'-diisothiocyanostilbene-2,2'-disulfonic acid), as well as suramin, an antagonist of P2-purinoreceptors and inhibitor of some ecto-ATPases. These two reagents inhibited the Mg2+-independent and the Mg2+-dependent ATPase activities to different extents. Interestingly, lipopolysaccharide, a component of cell walls of gram-negative bacteria that increase hemocyte aggregation and phagocytosis, increased the Mg2+-dependent ecto-ATPase activity in a dose-dependent manner but did not modify the Mg2+-independent ecto-ATPase activity.
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PMID:Ectonucleotide diphosphohydrolase activities in hemocytes of larval Manduca sexta. 1105 Nov 9

In Escherichia coli, Salmonella enterica, and Pseudomonas aeruginosa, the waaP (rfaP) gene product is required for the addition of phosphate to O-4 of the first heptose residue of the lipopolysaccharide (LPS) inner core region. This phosphate substitution is particularly important to the biology of these bacteria; it has previously been shown that WaaP is necessary for resistance to hydrophobic and polycationic antimicrobials in E. coli and that it is required for virulence in invasive strains of S. enterica. WaaP function is also known to be essential for the viability of P. aeruginosa. The predicted WaaP protein shows low levels of similarity (10-15% identity) to eukaryotic protein kinases, but its kinase activity has never been tested. Here we report the purification of WaaP and the reconstitution of its enzymatic activity in vitro. The purified enzyme catalyzes the incorporation of 33P from [gamma-33P]ATP into acceptor LPS purified from a defined E. coli waaP mutant. Enzymatic activity is dependent upon the presence of Mg2+ and is maximal from pH 8.0 to 9.0. The apparent Km (determined at saturating concentrations of the second substrate) is 0.13 mm for ATP and 76 microm for LPS. These data are the first proof that WaaP is indeed an LPS kinase. Further, site-directed mutagenesis of a predicted catalytic residue suggests that WaaP shares a common mechanism of action with eukaryotic protein kinases.
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PMID:Purification and characterization of WaaP from Escherichia coli, a lipopolysaccharide kinase essential for outer membrane stability. 1106 12

Neutrophils up-regulate beta2 integrins like CD11b/CD18 in response to lipopolysaccharide (LPS). Up-regulation of beta2 integrins causes neutrophils to adhere to surfaces, and to release superoxide anion (O2-). When neutrophils are exposed to LPS plus plasma under conditions not favorable for adherence (absence of Mg2+), the cells do not spontaneously release O2-, but instead they are primed for enhanced release of O2- after subsequent triggering by fMLP. In the presence of Mg2+, neutrophils adhere in response to LPS but fMLP-triggered O2- release by LPS-primed neutrophils is diminished. To understand why adherence interferes with the response of neutrophils to N-formyl-methionyl-leucyl-phenylalanine (fMLP), beta2 integrins were cross-linked by mouse monoclonal antibodies that had been immobilized by surface-bound anti-mouse antibody. When unprimed neutrophils were trapped on the surface by these cross-linked monoclonal antibodies, O2- release was triggered, and priming by LPS for fMLP-triggered O2- release was diminished, indicating that this cross-linking of beta2 integrins mimicked adherence. Alkaline phosphatase is up-regulated by LPS or tumor necrosis factor-alpha, and this response was also diminished by the cross-linking antibodies. The diminished alkaline phosphatase up-regulation was reversed by genistein, a general inhibitor of tyrosine kinases, and by piceatannol, an inhibitor for Syk kinase. Piceatannol also inhibited the phosphorylation of Syk caused by cross-linking of beta2 integrins. These results suggested that adherence-induced triggering and Syk kinase activation might be responsible for the diminished response of LPS-primed neutrophils to fMLP when neutrophils were adherent.
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PMID:Cross-linking of beta2 integrins caused diminished responses of neutrophils to priming agents like lipopolysaccharide or tumor necrosis factor-alpha: possible involvement of tyrosine kinase Syk. 1134 34

Acid shift (pH 4.0) of liquid nutrient medium containing 20 mM Mg2+ created conditions in vitro simulating the internal environment of phagolysosome into which Yersinia pestis captured by a macrophage get in vivo. The capacity of Y. pestis to survive and multiply under these conditions irrespective of the plasmid composition of strains was confirmed experimentally. Y. pestis possesses a specific mechanism of fibrinolytic activity inhibition, preventing proteolytic degradation under the effect of Ca-dependent polypeptide (Yops) fibrinolysin and potentiating, in addition to these latter, the production of the so-called "acid" proteins by Y. pestis, coded for by pCad2+ or chromosome, including the potentially new members of LCR family. The culturing conditions affect the length of O-specific lateral chains of Y. pestis lipopolysaccharide (LPS), which corresponds to LPS SR, but not R form.
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PMID:[Study of protein and carbohydrate products, synthesized by Yersinia pestis under conditions imitating the internal environment of mammalian phagolysosomal macrophages]. 1181 15

Bovine lactoferrin (bLf) is known to damage the outer membrane of Gram-negative bacteria by binding to bacterial lipopolysaccharide (LPS). We report that LPS is released from bacterial outer membranes also when apo- or metal-saturated Lf is separated from bacterial cells by a dialysis membrane. This process occurs in phosphate-buffered saline with no added Ca2+ and Mg2+ and is hindered by addition of these cations. The effect of bLf is similar to that induced by EDTA and has been ascribed to chelation of Ca2+. In fact, it may be envisaged that Ca2+-binding sites on LPS have different affinities and that bLf can remove those ions that are more weakly bound. Ca2+ binding does not alter Lf iron-binding properties significantly or its UV and CD spectral features but brings about changes in the FT-IR bands due to carboxylate residues. Ca2+ binding is characterized by an apparent dissociation constant of 6 microM and a stoichiometry of 1.55 Ca2+ per Lf molecule; it enhances bLf stability towards chemical and thermal denaturation. The increase in stability takes place in both the apo- and iron-saturated forms but not in the desialilated protein, indicating that the carboxylate groups of the sialic acid residues present on two of the glycan chains are involved in Ca2+ binding.
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PMID:Ca2+ binding to bovine lactoferrin enhances protein stability and influences the release of bacterial lipopolysaccharide. 1190 42

Bactericidal/permeability-increasing protein (BPI) of neutrophils is a lipopolysaccharide (LPS)-binding antibacterial protein with specificity for Gram negative bacteria. BPI binding to the bacterial surface rapidly triggers potentially reversible bacterial growth inhibition and alterations of the outer membrane and, later, disruption of the inner membrane and lethal injury. Initial effects include selective OmpR-dependent changes in the synthesis of outer membrane porins (OmpF and OmpC). Because OmpR is a global transcriptional regulator, we have examined its possible role in responses of E. coli to sublethal injury caused by BPI. Early (<15 min) reversible effects of BPI on bacterial colony-forming ability and outer membrane permeability were virtually identical in isogenic wild-type (wt) and ompR- E. coli. Both strains could repair the outer membrane permeability barrier after Mg2+-induced displacement of bound BPI. However, OmpR was essential for the ability of E. coli to tolerate low doses of BPI and escape the progression of sublethal to lethal damage. Scanning electron microscopy revealed that BPI treatment produced greater membrane perturbations in the ompR- strain, apparent even before lethal injury. These findings suggest that the fate of E. coli exposed to BPI depends on both OmpR-independent mechanisms engaged in outer membrane repair and OmpR- dependent processes that modulate porin synthesis and retard progression of injury from the outer to the inner membrane.
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PMID:OmpR-dependent and OmpR-independent responses of Escherichia coli to sublethal attack by the neutrophil bactericidal/permeability increasing protein. 1195

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