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)

Pupae of the silk moth, Samia cynthia, were found to contain an inducible antibacterial activity in their hemolymph. This immunity response was provoked by primary infections with either Escherichia coli K-12 or Enterobacter cloacae. In both cases the antibacterial activity was directed chiefly towards E. coli. During standard conditions, 1% of hemolymph could kill 10(3) to 10(4) viable E. coli, strain D31, within 5 min. A lower level of antibacterial activity was induced by injections of a sterile salt solution. The killing of strain D31 followed single-hit kinetics, and increasing rate constants were obtained for increasing amounts of hemolymph. The reaction was sensitive to pretreatment with trypsin and it was protected by reducing agents. The activity was inhibited by microgram quantities of lipopolysaccharide (LPS) prepared from certain LPS mutants of E. coli K-12. A comparison of the susceptibility showed that "heptose-less" LPS mutants were more sensitive to killing than other strains. During standard conditions hemolymph will lyse both E. coli and Micrococcus lysodeikticus. Lysis of E. coli followed a multi-hit kinetics and it was inhibited by LPS, whereas lysis of M. lysodeikticus was unaffected by LPS. Hemolymph was fractionated on Sephadex G-200, and the lytic activities were recovered in partly overlapping peaks. Reconstitution with pooled fractions gave synergistic effects with the killing assay.
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PMID:Insect immunity. I. Characteristics of an inducible cell-free antibacterial reaction in hemolymph of Samia cynthia pupae. 421 Mar 36

Ribi, E. (Rocky Mountain Laboratory, Hamilton, Mont.), R. L. Anacker, R. Brown, W. T. Haskins, B. Malmgren, K. C. Milner, and J. A. Rudbach. Reaction of endotoxin and surfactants. I. Physical and biological properties of endotoxin treated with sodium desoxycholate. J. Bacteriol. 92:1493-1509. 1966.-Endotoxins from three species of gram-negative bacteria were shown to be dissociated by the bile salt sodium deoxycholate (NaD) into nontoxic subunits with molecular weights of about 20,000. When the bile salt was removed by dialysis, the subunits reaggregated in an orderly manner to form a relatively uniform population of biologically active endotoxin particles with average molecular weights of 500,000 to 1,000,000. If a small amount of human plasma was added to the dissociated endotoxin before removal of the NaD, reassociation apparently did not occur and the preparation remained nonpyrogenic. However, the plasma protein could subsequently be removed from the endotoxin subunits, and reaggregation to the toxic form would then occur. The studies on the physical nature of endotoxin performed with biophysical solution techniques were supplemented and confirmed by direct examination of the endotoxin polymers by electron microscopy. The results of these studies were consonant with the theory that the biologically active endotoxic elements are composed of micellar aggregates of linear lipopolysaccharide subunits.
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PMID:Reaction of endotoxin and surfactants. I. Physical and biological properties of endotoxin treated with sodium deoxycholate. 428 9

The interaction of C3 and terminal complement components with three isogenic strains of Escherichia coli O111B4 varying in outer membrane and capsule composition was examined. Strains CL99 and 1-1, which possess O-antigen capsule and 74 to 77% coverage of lipid A core oligosaccharide, were sensitive to killing in pooled normal human serum (PNHS) or magnesium ethylene glycoltetraacetic acid PNHS in the presence but not the absence of antibody, although 1-1 contained 35% more lipopolysaccharide than CL99 and was slightly less sensitive to alternative pathway killing. In contrast, strain 1-2 lacks O-antigen capsule but contains 84% coverage and resists serum killing in the presence and absence of antibody in both PNHS and magnesium ethylene glycoltetraacetic acid PNHS. All three strains consumed C3 and C9 when incubated in PNHS, but consumption was most rapid with 1-2, which also bound the largest number of C3 molecules per CFU. Between 15 X 10(3) and 24 X 10(3) molecules of C9 per CFU bound to CL99 and 1-1 during incubation in 10% PNHS or 10% magnesium ethylene glycoltetraacetic acid PNHS, and binding was relatively stable. Binding and release of 3 X 10(3) to 8 X 10(3) molecules of C9 per CFU was observed for strain 1-2. The majority of C9 bound to CL99 and 1-1 in the presence of antibody distributed with the outer membrane after lysis of the organisms in a French press, whereas only 16.1 to 20.1% of C9 was deposited on these organisms in the absence of antibody, and 31.5 to 39.8% of C9 on strain 1-2 with or without antibody sedimented with the outer membrane. Between 4.6 X 10(3) and 5.5 X 10(3) molecules of C9 per CFU remained bound in a salt- and trypsin-resistant form to the outer membrane of organisms that were killed, whereas fewer than 1.4 X 10(3) molecules of C9 per CFU were bound to the outer membrane of organisms not killed by serum. These results indicate that C5b-9 that is bound to the outer membrane of E. coli O111B4 in a form resistant to salt or protease elution correlates with bacterial killing.
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PMID:Mechanism of bacterial resistance to complement-mediated killing: inserted C5b-9 correlates with killing for Escherichia coli O111B4 varying in O-antigen capsule and O-polysaccharide coverage of lipid A core oligosaccharide. 620 36

The electron spin resonance probes 5-doxylstearate and 4-(dodecyldimethylammonio)-1-oxy-2,2,6,6-tetramethylpiperidine bromide were used to characterize the fluidity of the acyl chain and head-group regions, respectively, of defined salts of lipopolysaccharide (LPS) from Escherichia coli K12. The removal of the weakly bound divalent cations from native LPS by electrodialysis and their replacement by sodium had little effect on the midpoint of the lipid-phase transition or on head-group mobility. In contrast, lipopolysaccharide acyl chain mobility increased following electrodialysis. The replacement of most of the remaining cations with sodium resulted in a further dramatic increase in mobility in both the polar and nonpolar regions of lipopolysaccharide. Head-group mobility of the sodium salt of LPS was shown to be reduced with the addition of divalent cations. Furthermore, evidence is presented which suggests that low magnesium concentrations may induce phase separations in the sodium salt. The magnesium salt of lipopolysaccharide closely resembled the native form in both head-group and acyl chain mobility although the cation charge to phosphorus ratio in the magnesium salt was greater than that detected in the native isolate. Analyses of other lipopolysaccharide salts support our hypothesis that many of the observed differences in the physical and pathological properties of lipopolysaccharide salts may simply be explained by the degree of charge neutralization.
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PMID:Physical properties of defined lipopolysaccharide salts. 630

Inductively coupled plasma emission spectroscopy was used to quantitate the metal cations bound to outer and cytoplasmic membranes and to extracted lipopolysaccharide from several Escherichia coli K12 strains. The outer membrane was found to be enriched in both calcium and magnesium relative to the cytoplasmic membrane. Both membranes contained significant levels of iron, aluminum, and zinc. The multivalent cation content of the lipopolysaccharide resembled that of the intact outer membrane. Lipopolysaccharide extracted from wild-type k12 strains contained higher levels of Mg than Ca regardless of the growth medium, but the medium used for growth did affect the relative amounts of bound Mg as well as the levels of the minor cations iron, aluminum, and zinc. In contrast, lipopolysaccharide isolated from a deep rough mutant strain, D21f2, contained more Ca than Mg. Electrodialysis of lipopolysaccharide from wild-type k12 strains removed 1 mol of Mg per mol of lipopolysaccharide but did not significantly affect the level of other bound metal ions. Dialysis of lipopolysaccharide against sodium (ethylenedinitrilo)tetraacetate removed most of the Mg and Ca, resulting in a sodium salt. The equimolar replacement of divalent cations with sodium in the sodium salt resulted in a net loss of counterion change. The sodium salt was dialyzed against either tris(hydroxymethyl)aminomethane hydrochloride, CaCl2, MgCl2, or TbCl3, and the resulting lipopolysaccharide salts were analyzed for their ionic composition. It was shown that tris(hydroxymethyl)aminomethane and Ca can replace some but not all of the Na bound to the sodium salt, but all of the other multivalent cations tested replaced Na, resulting in uniform lipopolysaccharide salts. Lipopolysaccharide isolated from the deep rough mutant strain D21f2 was also converted into a sodium salt. Relative to the wild-type lipopolysaccharide, Na was able to neutralize the anionic charge to a greater extent in the mutant lipopolysaccharide. Our results suggest that the loss of specific groups in the core region of the lipopolysaccharide from the mutant strain results in a more open structure that allows the binding of larger cations and of more monovalent cations.
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PMID:Quantitation of metal cations bound to membranes and extracted lipopolysaccharide of Escherichia coli. 634 72

Soluble hemagglutinin (HA) from an El Tor Vibrio cholerae strain (serotype Ogawa) was purified by means of a sequence of salt precipitation, gel filtration, and agarose electrophoresis. The purified material, which gave a single precipitation line in immunodiffusion tests with homologous antiserum, showed immunological identity reactions in double diffusion-in-gel with soluble HA produced by various classical and El Tor strains of different serotypes. Purified HA was used for development of an enzyme-linked immunosorbent assay for titration of specific antibodies against soluble HA and for quantitation of this antigen. Rabbit anti-HA serum reacted in high titer with the soluble HA coated on polystyrene microtiter plates, whereas antiserum against cholera toxin, lipopolysaccharide, or whole washed V. cholerae showed little or no reactivity. In inhibition tests as little as 2.5 ng of soluble HA could be detected with the enzyme-linked immunosorbent assay. Culture supernatants of different El Tor as well as classical V. cholerae strains all completely inhibited the binding of anti-HA antibody to solid-phase-bound homologous antigen, but the amounts of HA produced by individual strains varied at least 1,000-fold. Only 2 of 10 paired acute- and convalescent-phase sera from Bangladeshi cholera patients showed significant titer increases against soluble HA in parallel titrations.
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PMID:Purification of Vibrio cholerae soluble hemagglutinin and development of enzyme-linked immunosorbent assays for antigen and antibody quantitations. 634 93

Previously we showed that Klebsiella O3 lipopolysaccharide (KO3 LPS) is much more potent than other kinds of LPS including Escherichia coli O127 LPS (EO127 LPS) in adjuvant activity in augmenting antibody response and delayed-type hypersensitivity to protein antigens and in the ability to enlarge the regional lymph node. Various defined uniform salt forms, the triethylamine, sodium, potassium, ammonium, tris(hydroxymethyl)aminomethane, and calcium salt forms, of KO3 LPS and EO127 LPS were prepared by removing basic materials present in LPS preparations by electrodialysis and neutralizing the electrodialyzed LPS preparations with various kinds of alkali. The triethylamine salt form showed the best solubility and consisted of the smallest granules and, on the other hand, the calcium salt form showed the lowest solubility, compared with the natural form and the other uniform salt forms. Even if the natural forms of KO3 LPS and EO127 LPS were converted to the defined uniform salt forms, adjuvanticity of KO3 LPS and EO127 LPS in augmenting delayed-type hypersensitivity to ovalbumin and the ability to enlarge the regional lymph node did not significantly differ from those of the respective natural forms. From these results it is concluded that the difference in strength of the adjuvanticity between KO3 LPS and EO127 LPS is not due to the difference in their salt forms, solubility or physical state. Moreover, there were no significant differences in lethal toxicity for mice by the intraperitoneal route among the natural form and all the uniform salt forms of KO3 LPS tested.
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PMID:Adjuvant activity of Klebsiella O3 lipopolysaccharide: comparative study using defined uniform salt forms. 638 41

Various uniform salt forms of Klebsiella O3 lipopolysaccharide (KO3 LPS) isolated from culture supernatant were prepared as follows. Basic materials present in KO3 LPS were rigorously removed by electrodialysis and the electrodialyzed KO3 LPS was neutralized with NaOH, KOH, NH4OH, Ca(OH)2, tris(hydroxymethyl)aminomethane, or triethylamine. The ultrastructure of the uniform salt forms of KO3 LPS was examined using preparations stained with uranyl acetate. The sodium, potassium, ammonium, and trisaminomethane salt forms were structurally very similar to the natural form of KO3 LPS which consisted of a mixture of flat ribbon-like structures (average width of 16 nm and average thickness of 7 nm) and spheres with various diameters, both covered with fine hairy structures. When KO3 LPS was converted to the triethylamine salt form, the ribbon-like structures were disrupted into very small granules (7-9 nm X 9-15 nm). The calcium salt form consisted of particles and rods of various sizes and ribbon-like structures which were markedly extended (maximum width of 50 nm) and presented irregular shapes. When converted to the calcium salt form, the ribbon-like structures were extended and eventually divided into particles and rods. For reasons still unknown, the sodium salt of KO3 LPS was mostly stained positively with uranyl acetate in contrast to the natural form and the other uniform salt forms which were always negatively stained. In the positively stained preparation of the sodium salt form, it was clearly shown that the ribbon-like structures consisted of a bilayer.
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PMID:Ultrastructure of Klebsiella O3 lipopolysaccharide isolated from culture supernatant: structure of various uniform salt forms. 647 35

The influence of the state of aggregation of lipopolysaccharides upon their ability to interact with serum complement via either the classical or alternative pathway was studied. The anticomplement properties of two chromatographically distinct fractions of a phenol-extracted lipopolysaccharide isolated from Serratia marcescens were assessed by means of the standard sheep erythrocyte hemolytic assay and an alternative pathway-selective kinetic assay using rabbit erythrocytes. Both the high molecular weight PI fraction and the lower molecular weight PII fraction exerted anti-complement activity as determined in the sheep erythrocyte assay. Conversion of fractions PI and PII to their more soluble triethylamine salt forms resulted in a decrease in sedimentation coefficients and a corresponding loss of anticomplement activity. Further, the anticomplement activity of fractions PI and PII in the sheep erythrocyte assay was inhibited by polymyxin B, indicating a role for the lipid A region. Unlike the PII fraction, only the PI fraction can activate serum complement via the alternative pathway. This activity is not inhibited by polymyxin B, indicating that the response is not lipid A-mediated. Significantly, solubilization of the PI fraction with triethylamine had no effect on its ability to activate the alternative pathway. These studies clearly demonstrate that the interaction between lipopolysaccharides and serum complement is influenced by the state of lipopolysaccharide aggregation. However, this appears to be the case for lipopolysaccharide activation of the classical pathway but not of the alternative pathway.
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PMID:Evidence for different requirements in physical state for the interaction of lipopolysaccharides with the classical and alternative pathways of complement. 675 18

We investigated the phi PLS27 receptor in Pseudomonas aeruginosa strain PAO lipopolysaccharide (LPS) by analyzing a resistant mutant. This mutant, which was designated AK1282, had the most defective LPS yet reported for a P. aeruginosa rough mutant; this LPS contained only lipid A, 2-keto-3-deoxyoctonate, heptose, and alanine as major components. In addition, this LPS lacked galactosamine, which is present in the inner core of the LPS of other rough mutants. The loss of galactosamine but only a small decrease in the alanine content indicated that the core of strain PAO LPS differed from the core structure which has been suggested for the LPS of other well-characterized P. aeruginosa strains. Our analysis also indicated that galactosamine residues may be crucial for phi PLS27 receptor activity of the LPS. Electrodialysis of LPS and conversion to salt forms (sodium or triethylamine) influenced the phage-inactivating capacity of the LPS, as did the medium in which the inactivation occurred; experiments performed in 1/10-strength broth resulted in much lower PhI50 (concentration of LPS causing a 50% decrease in the titer of phage during 1 h of incubation at 37 degrees C) values than experiments performed in regular-strength broth. Sonication of the LPS also increased the phage-inactivating capacities of the LPS preparations.
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PMID:Pseudomonas aeruginosa bacteriophage phi PLS27-lipopolysaccharide interactions. 679 25

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