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)

Although certain factors appear to predispose the host to infection by Helicobacter pylori, clearly the bacterium possesses a well-defined battery of virulence factors that allow the organism to: (1) colonize the gastric mucosa (urease, flagella, adhesins, acid-inhibitory protein, iron acquisition proteins, and heat shock proteins); (2) evade host defense (shedding of surface proteins, catalase, superoxide dismutase, and poorly reactive lipopolysaccharide); and (3) damage host tissue (vacuolating cytotoxin, protease, CagA-related factors, inducers of cytokines, and chemotaxins). Together these factors allow H. pylori to persist in the host, establishing a chronic infection. Although many of these virulence factors are produced by all strains of H. pylori, there are also well-defined pathogenicity islands (contiguous stretches of chromosomal DNA) present in some strains that encode additional proteins including CagA that potentiate virulence. Strains possessing these "virulence cassettes" are isolated more frequently from patients with the more serious clinical manifestations associated with duodenal ulcer than from patients with gastritis alone or nonulcer dyspepsia.
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PMID:Helicobacter pylori factors associated with disease development. 939 56

Helicobacter pylori is very different from other Gram negative bacteria that inhabit the human gastroduodenal tract. Its success in adapting to colonise and persist in the stomach is reflected in key features such as unique chemical structure and architecture of lipopolysaccharide, sheathed flagella, genomic diversity, and potent urease activity. Strain diversity within the species is well established and so the challenge is to exploit variations in these features for developing relevant epidemiological typing methods.
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PMID:Progress in the development of Helicobacter pylori strain typing methods. 964 29

Intra-strain variation in the expression of lipopolysaccharide (LPS) by two clinical isolates of Helicobacter pylori was examined. Lipopolysaccharide was prepared from successive cultures of individual colonies from each strain, separated by SDS-PAGE, and detected by silver staining and by immunoblotting. The genetic 'relatedness' of the colonies was investigated using PCR-RFLP analysis of the urease and vacuolating cytotoxin genes. Although individual colonies of each of the two strains examined appeared to have the same genetic origins, variation in the expression of their long-chain LPS was observed. The same LPS profiles were maintained by individual colonies over four subcultures on solid media containing 10% (v/v) defibrinated horse blood.
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PMID:Intra-strain variation in expression of lipopolysaccharide by Helicobacter pylori. 971 8

The publication of the complete sequence of Helicobacter pylori 26695 in 1997 and more recently that of strain J99 has provided new insight into the biology of this organism. In this review, we attempt to analyze and interpret the information provided by sequence annotations and to compare these data with those provided by experimental analyses. After a brief description of the general features of the genomes of the two sequenced strains, the principal metabolic pathways are analyzed. In particular, the enzymes encoded by H. pylori involved in fermentative and oxidative metabolism, lipopolysaccharide biosynthesis, nucleotide biosynthesis, aerobic and anaerobic respiration, and iron and nitrogen assimilation are described, and the areas of controversy between the experimental data and those provided by the sequence annotation are discussed. The role of urease, particularly in pH homeostasis, and other specialized mechanisms developed by the bacterium to maintain its internal pH are also considered. The replicational, transcriptional, and translational apparatuses are reviewed, as is the regulatory network. The numerous findings on the metabolism of the bacteria and the paucity of gene expression regulation systems are indicative of the high level of adaptation to the human gastric environment. Arguments in favor of the diversity of H. pylori and molecular data reflecting possible mechanisms involved in this diversity are presented. Finally, we compare the numerous experimental data on the colonization factors and those provided from the genome sequence annotation, in particular for genes involved in motility and adherence of the bacterium to the gastric tissue.
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PMID:Metabolism and genetics of Helicobacter pylori: the genome era. 1047 11

Salmonella typhi Ty800, deleted for the Salmonella phoP/phoQ virulence regulon has been shown to be a safe and immunogenic single dose oral typhoid fever vaccine in volunteers. This promising vaccine strain was modified to constitutively express a heterologous protein of Gram negative bacterial origin, Helicobacter pylori urease subunits A and B, yielding S. typhi strain Ty1033. Seven volunteers received single oral doses of > or = 10(10) colony forming units of Ty1033; an eighth volunteer received two doses 3 months apart. Side effects were similar to those observed previously in volunteers who received the unmodified vector Ty800. All volunteers had strong mucosal immune responses to vaccination as measured by increases in IgA-secreting cells in peripheral blood directed against S. typhi antigens. Seven of eight volunteers had convincing seroconversion as measured by increases in serum IgG directed against S. typhi flagella and lipopolysaccharide antigens by ELISA. No volunteer had detectable mucosal or humoral immune responses to the urease antigen after immunization with single doses of Ty1033. A subset of three volunteers received an oral booster vaccination consisting of recombinant purified H. pylori urease A/B and E. coli heat labile toxin adjuvant 15 days after immunization with Ty1033. None of three had detectable humoral or mucosal immune responses to urease. Expression of a stable immunogenic protein in an appropriately attenuated S. typhi vector did not engender detectable mucosal or systemic antibody responses; additional work will be needed to define variables important for immunogenicity of heterologous antigens carried by live S. typhi vectors in humans.
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PMID:Safety and immunogenicity of phoP/phoQ-deleted Salmonella typhi expressing Helicobacter pylori urease in adult volunteers. 1051 34

The phosphoglucomutase (PGM)-encoding gene of Bordetella bronchiseptica is required for lipopolysaccharide (LPS) biosynthesis. An insertion mutant of the wild-type B. bronchiseptica strain BB7865 which disrupted LPS biosynthesis was created and characterized (BB7865pgm). Genetic analysis of the mutated gene showed it shares high identity with PGM genes of various bacterial species and forms part of an operon which also encompasses the gene encoding phosphoglucose isomerase. Functional assays for PGM revealed that enzyme activity is expressed in both bvg-positive and bvg-negative strains of B. bronchiseptica and is substantially reduced in BB7865pgm. Complementation of the mutated PGM gene with that from BB7865 restored the wild-type condition for all phenotypes tested. The ability of the mutant BB7865pgm to survive within J774. A1 cells was significantly reduced at 2 h (40% reduction) and 24 h (56% reduction) postinfection. BB7865pgm was also significantly attenuated in its ability to survive in vivo following intranasal infection of mice, being effectively cleared from the lungs within 4 days, whereas the wild-type strain persisted at least 35 days. The activities of superoxide dismutase, urease, and acid phosphatase were unaffected in the PGM-deficient strain. In contrast, the inability to produce wild-type LPS resulted in a reduced bacterial resistance to oxidative stress and a higher susceptibility to the antimicrobial peptide cecropin P.
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PMID:Role of phosphoglucomutase of Bordetella bronchiseptica in lipopolysaccharide biosynthesis and virulence. 1089 72

A prominent histologic feature of Helicobacter pylori infection is a dense infiltration of polymorphonuclear leukocytes (PMNL) in gastric mucosa. H. pylori lipopolysaccharide (LPS) has been recognized as a primary virulence factor evoking acute mucosal inflammatory reaction. Previous works have shown that H. pylori LPS immunologic activities are lower than those of enterobacterial LPS. However, the effect of H. pylori LPS on spontaneous PMNL apoptosis, and mechanisms by which this H. pylori LPS may promote PMNL survival remain to be established. In this study, we investigated, by both morphologic and biochemical approaches, the action of H. pylori LPS on PMNL apoptosis in vitro, using broth culture filtrates (BCF) of H. pylori strains with different genotypes. We found that BCF from H. pylori caused a significant delay in spontaneous PMNL apoptosis and this delay was independent of the VacA, cag pathogenicity island and urease status. We demonstrated that LPS in BCF is responsible for this effect because it was abrogated by the LPS antagonist B287 (a synthetic analog of Rhodobactersphaeroides lipid A). Moreover, BCF from H. pylori induced P42/44MAP kinase activation in PMNL. Similar results were obtained with BCF of an Escherichia coli strain. Taken together these data suggest that longer survival of PMNL induced by H. pylori LPS may increase gastric epithelium injury in H. pylori-associated diseases.
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PMID:Helicobacter pylori lipopolysaccharide hinders polymorphonuclear leucocyte apoptosis. 1131 Aug 30

Previous studies on the localization of several different Helicobacter pylori antigens have been contradictory. We have therefore examined by using both one- and two-color flow cytometry (FCM), immunofluorescence (IF), and immunoelectron microscopy (IEM), the possible surface localization of some H. pylori antigens that may be important virulence factors. All four methods detected the lipopolysaccharide and the N-acetyl-neuroaminyllactose-binding hemagglutinin protein (HpaA) as surface-exposed, while the urease enzyme was not detected at all and the neutrophil activating protein only in low concentration on the surface of the H. pylori bacteria during culture of H. pylori in liquid broth for 11 days. The FCM analysis was found to be quite sensitive and specific and also extremely fast compared with IF and IEM, and therefore the preferred method for detection of surface-localized antigens of H. pylori.
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PMID:Flow cytometric analysis of the localization of Helicobacter pylori antigens during different growth phases. 1133 35

Peptic ulcer accounts for about 50% of all cases of upper gastrointestinal bleeding. Acute mortality may be as high as 14%. Infection with Helicobacter plyori (Hp) and the use of nonsteroidal anti-inflammatory drugs (NSAIDs) are the predominant risk factors. While the prevalence of Hp in ulcer bleeding is still debated, there is strong evidence that eradication of bacteria reduce the risk of re-bleeding significantly. The use of NSAIDs increases the frequency of ulcer bleeding about four- to sixfold on average. Additional factors such as advanced age, concomitant use of corticosteroids or anticoagulants, prior ulcer complications and co-morbid diseases may further increase the risk of bleeding. Whether or not Hp infection also represents an additive risk factor in NSAID-related bleeding remains to be clarified. The pathophysiologic action of both Hp and NSAIDs is quite complex. Hp promotes the aggressive factor acid and damages several mucosal defence mechanisms by liberating lipopolysaccharide, urease and vacuolating cytotoxin. In NSAID toxicity the cyclo-oxygenase enzymes (COX) have been studied intensively. With the advent of COX-2-selective NSAIDs, the clinical problem of NSAID-induced ulcer bleeding may be markedly reduced or abolished completely.
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PMID:Incidence and pathophysiology of peptic ulcer bleeding. 1137 51

Helicobacter pylori is an important gastroduodenal pathogen of humans whose survival in the gastric environment below pH 4 is dependent on bacterial production of urease, whereas above pH 4 urease-independent mechanisms are involved in survival, but that remain to be elucidated fully. Previous structural investigations on the lipopolysaccharides (LPSs) of H. pylori have shown that the majority of these surface glycolipids express partially fucosylated, glucosylated, or galactosylated N-acetyllactosamine (LacNAc) O-polysaccharide chains containing Lewis(x) (Le(x)) and/or Lewis(y) (Le(y)), although some strains also express type 1 determinants, Lewis(a), Lewis(b), and H-1 antigen. In this study, we investigated acid-induced changes in the structure and composition of LPS and cellular lipids of the genome-sequenced strain, H. pylori 26695. When grown in liquid medium at pH 7, the O-chain consisted of a type 2 LacNAc polysaccharide, which was glycosylated with alpha-1-fucose at O-3 of the majority of N-acetylglucosamine residues forming Le(x) units, including chain termination by a Le(x) unit. However, growth in liquid medium at pH 5 resulted in production of a more complex O-chain whose backbone of type 2 LacNAc units was partially glycosylated with alpha L-fucose, thus forming Le(x), whereas the majority of the nonfucosylated N-acetylglucosamine residues were substituted at O-6 by alpha-D-galactose residues, and the chain was terminated by a Le(y) unit. In contrast, detailed chemical analysis of the core and lipid A components of LPS and analysis of cellular lipids did not show significant differences between H. pylori 26695 grown at pH 5 and 7. Although putative molecular mechanisms affecting Le(x) and Le(y) expression have been investigated previously, this is the first report identifying an environmental trigger inducing phase variation of Le(x) and Le(y) in H. pylori that can aid adaptation of the bacterium to its ecological niche.
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PMID:Phenotypic variation in molecular mimicry between Helicobacter pylori lipopolysaccharides and human gastric epithelial cell surface glycoforms. Acid-induced phase variation in Lewis(x) and Lewis(y) expression by H. Pylori lipopolysaccharides. 1174 6

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