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 O-specific polysaccharide, obtained by mild acid degradation of Citrobacter O16 lipopolysaccharide, consists of D-glucose, D-galactose, 2-acetamido-2-deoxy-D-galactose, glycerol and phosphate in the ratios 2:2:2:1:1. Selective cleavage of the polysaccharide was carried out by Smith degradation, N-deacetylation-deamination and dephosphorylation with 48% hydrofluoric acid, which was accompanied by unexpected splitting of one of the glycosidic linkages. The structures of the oligosaccharides thus obtained were established using 1H- and 13C-NMR spectroscopy, including one-dimensional NOE, two-dimensional rotating-frame NOE, homonuclear and heteronuclear 13C, 1H correlation spectroscopy, and, for the Smith degradation product, positive- and negative-ion-mode fast-atom-bombardment MS and MS/MS with collision-induced dissociation. On the basis of these data and the results of methylation analysis, it was concluded that the O-specific polysaccharide has the following repeating unit structure: [formula: see text]
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PMID:The structure of the O-specific polysaccharide of Citrobacter O16 containing glycerol phosphate. 750 93

Mild hydrolysis of the lipopolysaccharide (LPS) from Yersinia kristensenii serovar O:25.35 with acid afforded the O-specific polysaccharide (PS) which contained D-glucose, D-galactose, 2-acetamido-2,6-dideoxy-L-galactose, 2-acetamido-2-deoxy-D-glucose, glycerol, and phosphate in the ratios 3:1:1:1:1. On the basis of 31P and 13C NMR spectroscopy, hydrolysis, methylation studies, Smith degradation, and dephosphorylation, the repeating unit of PS was shown to have the following structure. [formula: see text]
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PMID:Structure of the O-specific polysaccharide of the lipopolysaccharide from Yersinia kristensenii O:25.35. 768 74

The chemical composition of lipopolysaccharides from Legionella erythra and Legionella oakridgensis was analysed. Sodium dodecyl sulfate polyacrylamide gel electrophoresis showed both lipopolysaccharides to have a smooth-type character. The polysaccharide part of both lipopolysaccharides contained D-mannose, D-glucose, D-glycero-D-mannoheptose, L-glycero-D-manno-heptose, 2-keto-3-deoxyoctonic acid, L-fucosamine, D-glucosamine, and glucosamine phosphate. In addition, L-rhamnose, glycerol phosphate, and glucose phosphate were identified in the polysaccharide part of L. erythra lipopolysaccharide. The main sugar identified in the lipid A part of both lipopolysaccharides, 2,3-diamino-2,3-dideoxy-D-glucose, was found to be substituted with a complex fatty acid composition including at least 16 different amide-linked 3-hydroxy fatty acids. Both lipopolysaccharides contained nonhydroxy fatty acids and the uncommon 27-oxo-octacosanoic acid, 29-oxotriacontanoic acid, and 27-hydroxyoctacosanoic acid. The lipopolysaccharide of L. oakridgensis also contained 29-hydroxytriacontanoic acid. The dioic long-chain acids heptacosane-1,27-dioic acid and nonacosane-1,29-dioic acid were only present in the lipopolysaccharide of L. erythra.
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PMID:Lipopolysaccharides of Legionella erythra and Legionella oakridgensis. 792 88

Strains of Caulobacter crescentus express a paracrystalline surface layer (S-layer) consisting of the protein RsaA. Mutants of C. crescentus NA1000 and CB2, isolated for their ability to grow in the absence of calcium ions, uniformly no longer had the S-layer attached to the cell surface. However, RsaA was still produced, and when colonies grown on calcium-sufficient medium were examined, large two-dimensional arrays of S-layer were found intermixed with the cells. Such arrays were not found in calcium-deficient medium even when high levels of magnesium ions were provided. The arrays could be disrupted with divalent ion chelators and more readily with the calcium-selective ethylene glycol-bis (beta-aminoethyl ether)N,N,N',N'-tetraacetic acid (EGTA). Thus, the outer membrane surface was not needed as a template for self-assembly, but calcium likely was. The cell surface and S-layer gene of assembly-defective mutants of NA1000 were examined to determine the basis of the S-layer surface attachment defect. Mutants had no detectable alteration in the rough lipopolysaccharide (LPS) or a characterized capsular polysaccharide, but another polysaccharide molecule was greatly reduced or absent in all calcium-independent mutants. The molecule was shown to be a smooth LPS with a core sugar and fatty acid complement identical to those of the rough LPS and an O polysaccharide of homogeneous length, tentatively considered to be composed of 4,6-dideoxy-4-amino hexose, 3,6-dideoxy-3-amino hexose, and glycerol in equal proportions. This molecule (termed SLPS) was detectable by surface labeling with a specific antiserum only when the S-layer was not present. The rsaA genes from three calcium-independent mutants were cloned and expressed in an S-layer-negative, SLPS-positive strain. A normal S-layer was produced, ruling out defects in rsaA in these cases. It is proposed that SLPS is required for S-layer surface attachment, possibly via calcium bridging. The data support the possibility that calcium binding is required to prevent an otherwise lethal effect of SLPS. If true, mutations that eliminate the O polysaccharide of SLPS eliminate the lethal effects of calcium-deprived SLPS, at the expense of S-layer attachment.
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PMID:Characterization of mutants of Caulobacter crescentus defective in surface attachment of the paracrystalline surface layer. 792 3

Macrophage degradation of low density lipoprotein (LDL) was shown to be increased in lipopolysaccharide (LPS)-stimulated cells. The involvement of second messengers in this phenomenon was studied. Preincubation of J-774A.1 macrophages with the protein kinase C (PKC) inhibitors D-sphingosine or staurosporine did not significantly affect the stimulatory action of LPS. Similarly, J-774A.1 macrophage-like cell line, incubation with 1,2-dioleoyl-sn-glycerol had no effect on cellular degradation of LDL. However, preincubation of J-774A.1 macrophages with dibutyryl cyclic adenosine monophosphate (50 microM dB-cAMP) led to a 51% increase in the cellular degradation of LDL. Analysis of cAMP content in LPS-stimulated cells revealed a 59% elevation in its cellular content in comparison to non-stimulated cells. Our results suggest that LPS stimulation of macrophage uptake of LDL occurs via the cAMP pathway and not via PKC activation. These results may contribute to understanding of the mechanism by which activated macrophages accumulate cholesterol.
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PMID:Involvement of second messengers in lipopolysaccharide stimulation of low density lipoprotein uptake by macrophages. 805 Aug 75

Certain phosphatidic/plasmanic/plasmenic acid (PA) species function as lipid intermediates in cell activation and may function directly as intracellular signaling molecules. PA can also be dephosphorylated to 1,2-diradyl-sn-glycerol by phosphatidate phosphohydrolase. Treatment of various cell types, including murine P388 monocytic leukemia cells, with bacterial lipopolysaccharide rapidly stimulates large increases in PA and PA-derived diradylglycerol. Pentoxifylline, 1-(5-oxohexyl)-3,7-dimethylxanthine, inhibits lipopolysaccharide-stimulated formation of PA in P388 cells at high concentrations (IC50 = 500 microM). Lisofylline [1-(5R-hydroxyhexyl)-3,7-dimethylxanthine] is a unique metabolite of pentoxifylline in humans and is > 800-fold more active as an inhibitor of PA formation than pentoxifylline (IC50 = 0.6 microM). Lisofylline does not inhibit lipopolysaccharide-induced activation of phosphatidylinositol-specific phospholipase C and generation of phosphatidylinositol-derived diradylglycerol. Lisofylline but not pentoxifylline protects BALB/c mice from endotoxin lethality when administered 4 hr after lipopolysaccharide. This protective effect is independent of either agent's effect on suppression of plasma tumor necrosis factor alpha. These data suggest that inhibitors of PA formation may have significant clinical potential in the treatment of sepsis and septic shock.
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PMID:Protection from endotoxic shock in mice by pharmacologic inhibition of phosphatidic acid. 817 Oct 2

To investigate the effects of cytokines on adipocyte lipolysis, a macrophage cell line (RAW 264.7) was treated with Escherichia coli lipopolysaccharide (1 microgram/ml) for 18 h to induce cytokine release. Conditioned medium (5%, vol/vol) from these cells was added to rat epididymal adipocytes isolated and incubated under sterile conditions. After incubation, the adipocytes were washed, and the rate of lipolysis (glycerol release) was determined after a further 1-h incubation. The conditioned medium caused an approximately 2.7-fold increase in lipolysis, detectable after 6-12 h, maximal by 24 h, and reversible by 48 h after washing the cells. The effect of conditioned medium was reversed by a neutralizing antibody to mouse tumor necrosis factor-alpha (TNF alpha), and the direct addition of recombinant human TNF alpha (0.1-50 ng/ml) reproduced the effect, with a half-maximally effective concentration of approximately 3 ng/ml. The effect of TNF on the expression of hormone-sensitive lipase (HSL; the rate-limiting enzyme for lipolysis) was investigated by Western immunoblots using an antibody raised to a bacterially expressed 96-amino acid portion of the HSL enzyme. TNF treatment did not alter the concentration of immunoreactive HSL. From these data we conclude that 1) macrophages release a cytokine(s) in response to lipopolysaccharide that stimulates lipolysis in freshly isolated adipocytes; 2) TNF alpha can account for most, or perhaps all, of this effect; 3) TNF alpha increases the rate of lipolysis by a mechanism that does not involve increased expression of HSL. Based on the time-dependent aspects of TNF alpha stimulation and the lack of change in immunoreactive HSL, the findings suggest a TNF-induced posttranslational modification of the enzyme.
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PMID:Tumor necrosis factor increases the rate of lipolysis in primary cultures of adipocytes without altering levels of hormone-sensitive lipase. 819 85

The mitogen-induced activation responses of rat splenic lymphocytes were determined for control and uremic rats. Lymphocyte activation was quantified by incorporation of [3H]thymidine. Glycerol-induced acute renal failure (ARF) inhibited the proliferation of both lipopolysaccharide (LPS)-induced B-lymphocytes and concanavalin A (Con A)-induced T-lymphocytes by 80% and 87%, respectively. The decrease in [3H]thymidine incorporation in both the LPS- and con A-activated cells significantly correlates with increases in plasma urea and creatinine concentrations (r = 0.83). Total glutathione (GSH) concentration in the splenocytes was not significantly different in terms of GSH per 10(7) cell, although the overall GSH and the number of viable splenocytes were generally lower in the uremic rats. Determination of GSH-related enzymes (GSH S-transferase, GSSG reductase and GSH peroxidase) in the spleen of control rats and rats with ARF showed little difference in the activities of these enzymes, although the GSSG/GSH ratio, which is an indication of oxidative stress, was significantly increased in the spleen of uremic rats. Incubation of normal splenocytes from control rats with uremic plasma obtained from rats with ARF also significantly decreased the proliferation responses. Metabolic inhibitors present in uremic plasma may contribute to the inhibitory action on mitogen-induced proliferation of B- and T-lymphocytes, although oxidative stress which occurs in ARF may itself be sufficient to affect the immune function.
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PMID:Effect of glycerol-induced acute renal failure on glutathione status and mitogen-induced proliferation of rat splenocytes. 825 21

The functional relationships between lymphoid cells and the adipose tissue that surrounds lymph nodes were investigated in healthy adult guinea pigs. Lymphoid cells extracted from healthy adult guinea pigs were co-cultured for 48 h with adipose tissue explants from 18 sites defined by their anatomical relations to lymph nodes. Such explants from near a node suppressed lymphocyte proliferation stimulated with concanavalin A or lipopolysaccharide more than those from sites 5-10 mm from nodes. Inhibition was almost completely abolished by 500 microU insulin. The presence of lymphoid cells increased lipolysis (measured as glycerol release) in adipose tissue from all depots containing lymph nodes (i.e., except perirenal), especially in the presence of mitogens and with near-node samples from intermuscular and mesenteric depots. Inhibition of lymphocyte proliferation by adipose tissue was proportional to the additional lipolysis stimulated by the presence of lymphoid cells. For all depots except the mesenteric, glycerol release stimulated by lymphoid cells was inversely proportional to spontaneous lipolysis in adipose tissue cultured alone. These experiments demonstrate reciprocal interactions between lymphoid cells and adipose tissue, especially that around lymph nodes. The mediators of the action of adipose tissue on lymphoid cells probably include lipolytic products; mediators of the inverse effects are unknown.
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PMID:Interactions between adipose tissue around lymph nodes and lymphoid cells in vitro. 857 48

The O-specific polysaccharide of the lipopolysaccharide produced by Hafnia alvei strain 1220 contained D-glucose, D-galactose, N-acetyl-D-glucosamine, N-acetyl-L-fucosamine (2-acetamido-2,6-dideoxy-L-galactose), glycerol, and phosphate. It was proved by composition and methylation analyses, Smith degradation, dephosphorylation, and one- and two-dimensional 1H NMR spectroscopy to be a teichoic acid-like polymer with a branched hexasaccharide repeating unit of the following structure. [sequence: see text]
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PMID:Structure of the O-specific polysaccharide, containing a glycerol phosphate substituent, of Hafnia alvei strain 1220 lipopolysaccharide. 876 61

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