N. A. Gregson scite author profile

Campylobacter jejuni, a Gram‐negative spiral bacterium, is the most common bacterial cause of acute human gastroenteritis and is increasingly recognized for its association with the serious post‐infection neurological complications of the Miller–Fisher and Guillain–Barré syndromes. C. jejuni lipopolysaccharide (LPS) is thought to be involved in the pathogenesis of both uncomplicated infection and more serious sequelae, yet the LPS remains poorly characterized. Current studies on C. jejuni suggest that all strains produce lipooligosaccharide (LOS), with about one‐third of strains also producing high‐molecular‐weight LPS (referred to as O‐antigen). In this report, we demonstrate the presence of the high‐molecular‐weight LPS in all C. jejuni strains tested. Furthermore, we show that this LPS is biochemically and genetically unrelated to LOS and is similar to group II and group III capsular polysaccharides. All tested kpsM, kpsS and kpsC mutants of C. jejuni lost the ability to produce O‐antigen. Moreover, this correlated with serotype changes. We demonstrate for the first time that the previously described O‐antigen of C. jejuni is a capsular polysaccharide and a common component of the thermostable antigen used for serotyping of C. jejuni.

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Phase variation of a β‐1,3 galactosyltransferase involved in generation of the ganglioside GM₁‐like lipo‐oligosaccharide of Campylobacter jejuni

Linton

Gilbert

Hitchen

et al. 2000

Molecular Microbiology

216

185

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Ganglioside mimicry by Campylobacter jejuni lipo‐oligosaccharide (LOS) is thought to be a critical factor in the triggering of the Guillain–Barré and Miller–Fisher syndrome neuropathies after C. jejuni infection. The combination of a completed genome sequence and a ganglioside GM1‐like LOS structure makes C. jejuni NCTC 11168 a useful model strain for the identification and characterization of the genes involved in the biosynthesis of ganglioside‐mimicking LOS. Genome analysis identified a putative LOS biosynthetic cluster and, from this, we describe a putative gene (ORF Cj1139c), which we have termed wlaN, with a significant level of similarity to a number of bacterial glycosyltransferases. Mutation of this gene in C. jejuni NCTC 11168 resulted in a LOS molecule of increased electrophoretic mobility, which also failed to bind cholera toxin. Comparison of LOS structural data from wild type and the mutant strain indicated lack of a terminal β‐1,3‐linked galactose residue in the latter. The wlaN gene product was demonstrated unambiguously as a β‐1,3 galactosyltransferase responsible for converting GM2‐like LOS structures to GM1‐like by in vitro expression. We also show that the presence of an intragenic homopolymeric tract renders the expression of a functional wlaN gene product phase variable, resulting in distinct C. jejuni NCTC 11168 cell populations with alternate GM1 or GM2 ganglioside‐mimicking LOS structures. The distribution of wlaN among a number of C. jejuni strains with known LOS structure was determined and, for C. jejuni NCTC 12500, similar wlaN gene phase variation was shown to occur, so that this strain has the potential to synthesize a GM1‐like LOS structure as well as the ganglioside GM2‐like LOS structure proposed in the literature.

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A novel paralogous gene family involved in phase-variable flagella-mediated motility in Campylobacter jejuni

Karlyshev

Linton

Gregson³

et al. 2002

152

165

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Flagella-mediated motility is recognized to be one of the major factors contributing to virulence in Campylobacter jejuni. Motility of this bacterium is known to be phase variable, although the mechanism of such variation remains unknown. C. jejuni genome sequencing revealed a number of genes prone to phase variation via a slipped-strand mispairing mechanism. Many of these genes are hypothetical and are clustered in the regions involved in formation of three major cell surface structures : capsular polysaccharide, lipooligosaccharide and flagella. Among the genes of unknown function, the flagellar biosynthesis and modification region contains seven hypothetical paralogous genes designated as the motility accessory factor (maf) family. Remarkably, two of these genes (maf1 and maf4) were found to be identical and both contain homopolymeric G tracts. Using insertional mutagenesis it was demonstrated that one of the genes, maf5, is involved in formation of flagella. Phase variation of the maf1 gene via slipped-strand mispairing partially restored motility of the maf5 mutant. The maf family represents a new class of bacterial genes related to flagellar biosynthesis and phase variation. Reversible expression of flagella may be advantageous for the adaptation of C. jejuni to the varied in vivo and ex vivo environments encountered during its life cycle, as well in evasion of the host immune response.

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N. A. Gregson

Campylobacter jejuniInfection and Guillain–Barré Syndrome

Galactocerebroside is a specific cell-surface antigenic marker for oligodendrocytes in culture

Genetic and biochemical evidence of a Campylobacter jejuni capsular polysaccharide that accounts for Penner serotype specificity

Phase variation of a β‐1,3 galactosyltransferase involved in generation of the ganglioside GM₁‐like lipo‐oligosaccharide of Campylobacter jejuni

A novel paralogous gene family involved in phase-variable flagella-mediated motility in Campylobacter jejuni

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N. A. Gregson

Campylobacter jejuniInfection and Guillain–Barré Syndrome

Galactocerebroside is a specific cell-surface antigenic marker for oligodendrocytes in culture

Genetic and biochemical evidence of a Campylobacter jejuni capsular polysaccharide that accounts for Penner serotype specificity

Phase variation of a β‐1,3 galactosyltransferase involved in generation of the ganglioside GM1‐like lipo‐oligosaccharide of Campylobacter jejuni

A novel paralogous gene family involved in phase-variable flagella-mediated motility in Campylobacter jejuni

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Resources

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Phase variation of a β‐1,3 galactosyltransferase involved in generation of the ganglioside GM₁‐like lipo‐oligosaccharide of Campylobacter jejuni