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Query: UNIPROT:P43026 (
lipopolysaccharide
)
62,215
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In this work, we demonstrate that the wbbD gene of the O7
lipopolysaccharide
(
LPS
) biosynthesis cluster in Escherichia coli strain VW187 (O7:K1) encodes a galactosyltransferase involved in the synthesis of the O7-polysaccharide repeating unit. The galactosyltransferase catalyzed the transfer of
Gal
from UDP-Gal to the GlcNAc residue of a GlcNAc-pyrophosphate-lipid acceptor. A mutant strain with a defective wbbD gene was unable to form O7
LPS
and lacked this specific galactosyltransferase activity. The normal phenotype was restored by complementing the mutant with the cloned wbbD gene. To characterize the WbbD galactosyltransferase, we used a novel acceptor substrate containing GlcNAcalpha-pyrophosphate covalently bound to a hydrophobic phenoxyundecyl moiety (GlcNAc alpha-O-PO(3)-PO(3)-(CH(2))(11)-O-phenyl). The WbbD galactosyltransferase had optimal activity at pH 7 in the presence of 2.5 mM MnCl(2). Detergents in the assay did not increase glycosyl transfer. Digestion of enzyme product by highly purified bovine testicular beta-galactosidase demonstrated a beta-linkage. Cleavage of product by pyrophosphatase and phosphatase, followed by HPLC and NMR analyses, revealed a disaccharide with the structure
Gal
beta1-3GlcNAc. Our results conclusively demonstrate that WbbD is a UDP-Gal: GlcNAcalpha-pyrophosphate-R beta1,3-galactosyltransferase and suggest that the novel synthetic glycolipid acceptor may be generally applicable to characterize other bacterial glycosyltransferases.
...
PMID:The wbbD gene of E. coli strain VW187 (O7:K1) encodes a UDP-Gal: GlcNAc{alpha}-pyrophosphate-R {beta}1,3-galactosyltransferase involved in the biosynthesis of O7-specific lipopolysaccharide. 1562 81
A novel acceptor substrate for galactosyltransferase was synthesized containing GlcNAcalpha-pyrophosphate, covalently bound to a hydrophobic phenoxyundecyl moiety (GlcNAc alpha-O-PO(3)-PO(3)-(CH(2))(11)-O-Phenyl). The new substrate was used to develop an assay for a galactosyltransferase activity from Escherichia coli strain VW187 that is involved in
lipopolysaccharide
synthesis and has not been studied by others. We showed that
Gal
was transferred from UDP-Gal to the novel acceptor substrate. This was a significant improvement over our previous preliminary assays of the enzyme using endogenous substrate, and showed that these synthetic substrates are useful for assaying enzymes that utilize lipid-bound substrates in O-chain synthesis in Gram-negative bacteria.
...
PMID:Identification of a UDP-Gal: GlcNAc-R galactosyltransferase activity in Escherichia coli VW187. 1568 43
The phase-variable locus lex2 is required for expression of a Haemophilus influenzae
lipopolysaccharide
(
LPS
) epitope of previously unknown structure. This epitope, which is reactive with monoclonal antibody (MAb) 5G8, has been associated with virulence of type b strains. When strain RM118 (from the same source as strain Rd), in which the lex2 locus and MAb 5G8 reactivity are absent, was transformed with lex2 DNA, transformants that were reactive with MAb 5G8 were obtained. Surprisingly, the 5G8 reactivity of these transformants was phase variable, although the lex2 locus lacked tetrameric repeats and was constitutively expressed. This phase variation was shown to be the result of phase-variable expression of phosphorylcholine (PCho) such that MAb 5G8 reacted only in the absence of PCho. Structural analysis showed that, compared to RM118, the lex2 transformant had acquired a tetrasaccharide,
Gal
-alpha1,4-
Gal
-beta1,4-Glc-beta1,4-Glc-beta1,4, linked to the proximal heptose (HepI). A terminal GalNAc was detected in a minority of glycoforms.
LPS
derived from a mutant of RM7004, a virulent type b strain which naturally expresses lex2 and has
LPS
containing the same tetrasaccharide linked to HepI as the sole oligosaccharide extension from the inner core, confirmed that GalNAc is not a part of the MAb 5G8-reactive epitope. Thus, MAb 5G8 specifically binds to the structure
Gal
-alpha1,4-
Gal
-beta1,4-Glc-beta1,4-Glc-beta attached via a 1,4 linkage to HepI of H. influenzae
LPS
, and we show that the ability to synthesize this novel tetrasaccharide was associated with enhanced bacterial resistance to complement-mediated killing.
...
PMID:Elucidation of the monoclonal antibody 5G8-reactive, virulence-associated lipopolysaccharide epitope of Haemophilus influenzae and its role in bacterial resistance to complement-mediated killing. 1578 65
We reported previously that the core oligosaccharide region of the
lipopolysaccharide
(
LPS
) is essential for optimal adhesion of Actinobacillus pleuropneumoniae, an important swine pathogen, to respiratory tract cells. Rough
LPS
and core
LPS
mutants of A. pleuropneumoniae serotype 1 were generated by using a mini-Tn10 transposon mutagenesis system. Here we performed a structural analysis of the oligosaccharide region of three core
LPS
mutants that still produce the same O-antigen by using methylation analyses and mass spectrometry. We also performed a kinetic study of proinflammatory cytokines production such as interleukin (IL)-6, tumor necrosis factor-alpha, IL1-beta, MCP-1, and IL8 by
LPS
-stimulated porcine alveolar macrophages, which showed that purified
LPS
of the parent strain, the rough
LPS
and core
LPS
mutants, had the same ability to stimulate the production of cytokines. Most interestingly, an in vitro susceptibility test of these
LPS
mutants to antimicrobial peptides showed that the three core
LPS
mutants were more susceptible to cationic peptides than both the rough
LPS
mutant and the wild type parent strain. Furthermore, experimental pig infections with these mutants revealed that the galactose (
Gal
I) and d,d-heptose (Hep IV) residues present in the outer core of A. pleuropneumoniae serotype 1
LPS
are important for adhesion and overall virulence in the natural host, whereas deletion of the terminal GalNAc-
Gal
II disaccharide had no effect. Our data suggest that an intact core-lipid A region is required for optimal protection of A. pleuropneumoniae against cationic peptides and that deletion of specific residues in the outer
LPS
core results in the attenuation of the virulence of A. pleuropneumoniae serotype 1.
...
PMID:Truncation of the lipopolysaccharide outer core affects susceptibility to antimicrobial peptides and virulence of Actinobacillus pleuropneumoniae serotype 1. 1618 78
Neisseria meningitidis
lipopolysaccharide
(
LPS
) has been identified as a major determinant of dendritic cell (DC) function. Here we report that one of a series of meningococcal mutants with defined truncations in the lacto-N-neotetraose outer core of the
LPS
exhibited unique strong adhesion and internalization properties towards DC. These properties were mediated by interaction of the GlcNAc(beta1-3)-
Gal
(beta1-4)-Glc-R oligosaccharide outer core of lgtB
LPS
with the dendritic-cell-specific ICAM-3 grabbing non-integrin (DC-SIGN) lectin receptor. Activation of DC-SIGN with this novel oligosaccharide ligand skewed T-cell responses driven by DC towards T helper type 1 activity. Thus, the use of lgtB
LPS
may provide a powerful instrument to selectively induce the desired arm of the immune response and potentially increase vaccine efficacy.
...
PMID:Neisseria meningitidis expressing lgtB lipopolysaccharide targets DC-SIGN and modulates dendritic cell function. 1644 41
Mycelia of Antrodia cinnamomea were extracted with chloroform and hot water. A neutral polysaccharide named ACN2a separated from the water extract was purified using 10% CCl3COOH, and repeated column chromatography on HW-65 and DE-52 cellulose. Its structure was determined by chemical and spectroscopic analyses. ACN2a was composed of
Gal
, Glc, Fuc, Man and GalN (in the ratio 1:0.24:0.07:0.026:faint), in which an alpha-D-(1-->6)-
Gal
linkage accounted for 73% of all linkages. The ratio of branch points was about 16% of the total residual numbers, and branches were attached to C-2 of galactosyl residues of the main chain. ACN2a had an average molecular weight of 12.9x10(5) Daltons, [alpha]D25=+115 degrees (c=0.44, H2O); [eta]=0.0417dl.g-1, Cp=0.2663 cal/(g. degrees C). The hepatoprotective effect of ACN2a was evaluated using a mouse model of hepatic injury that was induced by Propionibacterium acnes (P. acnes) and
lipopolysaccharide
(
LPS
). The administration of ACN2a (0.4, 0.8 g/kg/d, p.o.), significantly prevented increases in serum aspartate aminotransferase (AST) and alanine aminotransferase (ALT) enzyme activities in mice treated with P. acnes-
LPS
, indicating hepatoprotective activity in vivo.
...
PMID:Protective effects of a neutral polysaccharide isolated from the mycelium of Antrodia cinnamomea on Propionibacterium acnes and lipopolysaccharide induced hepatic injury in mice. 1659 52
All animals exist in intimate associations with microorganisms that play important roles in the hosts' normal development and tissue physiology. In vertebrates, the most populous and complex community of microbes resides in the digestive tract. Here, we describe the establishment of the gut microbiota and its role in digestive tract differentiation in the zebrafish model vertebrate, Danio rerio. We find that in the absence of the microbiota, the gut epithelium is arrested in aspects of its differentiation, as revealed by the lack of brush border intestinal alkaline phosphatase activity, the maintenance of immature patterns of glycan expression and a paucity of goblet and enteroendocrine cells. In addition, germ-free intestines fail to take up protein macromolecules in the distal intestine and exhibit faster motility. Reintroduction of a complex microbiota at later stages of development or mono-association of germ-free larvae with individual constituents of the microbiota reverses all of these germ-free phenotypes. Exposure of germ-free zebrafish to heat-killed preparations of the microbiota or bacterial
lipopolysaccharide
is sufficient to restore alkaline phosphatase activity but not mature patterns of
Gal
alpha1,3Gal containing glycans, indicating that the host perceives and responds to its associated microbiota by at least two distinct pathways.
...
PMID:Distinct signals from the microbiota promote different aspects of zebrafish gut differentiation. 1678 2
The structure of the antigenic O-polysaccharide (O-PS) of the
lipopolysaccharide
(
LPS
) produced by the enterohemorrhagic strain of Escherichia coli O48:H21 (EHEC) has been elucidated. The O-PS obtained by mild acid hydrolysis of the
LPS
had [alpha]D +95 (water) and was composed of L-rhamnose (L-Rha), D-galactose (D-Gal), 2-amino-2-deoxy-D-glucose (D-GlcN), 2-amino-2-deoxy-D-galactose (D-GalN), and D-galacturonic acid (D-GalA) (1:1:1:1:1). From the results of methylation analysis, mass spectrometry, 2D NMR, and DOC-PAGE, the O-PS was shown to be a high molecular mass polymer of a repeating pentasaccharide unit having the structure: [structure: see text]. The D-
Gal
pA non-reducing end groups in the O-PS were partially O-acetylated (approximately 30%) at the O-2 and O-3 positions and the degree of acetylation was variable from batch to batch cell production.
...
PMID:Structural elucidation of the O-antigenic polysaccharide from enterohemorrhagic (EHEC) Escherichia coli O48:H21. 1694 62
Enterohemorrhagic Escherichia coli (EHEC), especially E. coli O157:H7, is an emerging cause of food-borne illness. Unfortunately, E. coli O157 cannot be genetically manipulated using the generalized transducing phage P1, presumably because its extensive O antigen obscures the P1 receptor, the
lipopolysaccharide
(
LPS
) core subunit. The GalE, GalT, GalK, and GalU proteins are necessary for modifying galactose before it can be assembled into the repeating subunit of the O antigen. Here, we constructed E. coli O157:H7 gal mutants which presumably have little or no O antigen. These strains were able to adsorb P1. P1 lysates grown on the gal mutant strains could be used to move chromosomal markers between EHEC strains, thereby facilitating genetic manipulation of E. coli O157:H7. The gal mutants could easily be reverted to a wild-type
Gal
(+) strain using P1 transduction. We found that the O157:H7 galETKM::aad-7 deletion strain was 500-fold less able to colonize the infant rabbit intestine than the isogenic
Gal
(+) parent, although it displayed no growth defect in vitro. Furthermore, in vivo a
Gal
(+) revertant of this mutant outcompeted the galETKM deletion strain to an extent similar to that of the wild type. This suggests that the O157 O antigen is an important intestinal colonization factor. Compared to the wild type, EHEC gal mutants were 100-fold more sensitive to a peptide derived from bactericidal permeability-increasing protein, a bactericidal protein found on the surface of intestinal epithelial cells. Thus, one way in which the O157 O antigen may contribute to EHEC intestinal colonization is to promote resistance to host-derived antimicrobial polypeptides.
...
PMID:Enterohemorrhagic Escherichia coli O157:H7 gal mutants are sensitive to bacteriophage P1 and defective in intestinal colonization. 1715 99
T-Antigen (
Gal
-beta1,3-GalNAc-alpha-O-Ser/Thr) is an important precursor of mucin-type O-glycans. T-Antigen is found to be closely associated with cancer progression and metastasis and has been used to develop carbohydrate-based anticancer vaccines. Enzymatic synthesis of T-antigen disaccharides have relied on the use of beta-1,3-galactosyltransferases recently cloned and characterized from several eukaryotic organisms. However, its application is limited by the difficulty of obtaining homogeneous enzymes and the strict substrate specificity of enzymes. Recently, a number of bacteria have been found to express carbohydrate structures that mimic host glycans. The corresponding glycosyltransferases have been exploited in the facile synthesis of a number of clinically important glycoconjugate mimics. In this study, we biochemically characterized a bacterial beta-1,3-galactosyltransferase (WbiP) from Escherichia coli O127, which expresses a T-antigen mimic in the
lipopolysaccharide
(
LPS
) structure. Substrate study showed that WbiP could readily glycosylate a series of N-acetylgalactosamine (GalNAc) analogues with alpha-substitutions at the reducing end, including glycosylated Ser and Thr (GalNAc-alpha-O-Ser/Thr), which illustrates the use of WbiP for the facile synthesis of T-antigens. Alignment of a group of putative bacterial beta-1,3-galactosyltransferases revealed the presence of two conserved DXD motifs, possibly suggesting a different functional role of each motif. Site-directed mutagenesis, enzyme kinetics as well as UDP-bead binding assays were carried out to investigate the role of each DXD motif in WbiP. The results suggest that 88DSD90 is critical in the binding of sugar donor UDP-Gal, whereas 174DYD176 may participate in the binding of the sugar acceptor. This study expands the scope of using bacterial glycosyltransferases as tools for in vitro synthesis of glycoconjugate mimics with clinical significance.
...
PMID:Characterization of a bacterial beta-1,3-galactosyltransferase with application in the synthesis of tumor-associated T-antigen mimics. 1817 56
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