Temperature-dependent phenotypic variation of Campylobacter jejuni lipooligosaccharides

Posted: November 30th, 2010 - 8:44pm
Source: BMC Microbiology

Abstract (provisional)
Campylobacter jejuni is a major bacterial cause of food-borne enteritis, and its lipooligosaccharide (LOS) plays an initiating role in the development of the autoimmune neuropathy, Guillain-Barre syndrome, by induction of anti-neural cross-reactive antibodies through ganglioside molecular mimicry.
Herein we describe the existence and heterogeneity of multiple LOS forms in C. jejuni strains of human and chicken origin grown at 37 degrees C and 42 degrees C, respectively, as determined on sodium dodecyl sulphate-polyacrylamide electrophoresis gels with carbohydrate-specific silver staining and blotting with anti-ganglioside ligands, and confirmed by nuclear magnetic resonance (NMR) spectroscopy. The C. jejuni NCTC 11168 original isolate (11168-O) was compared to its genome-sequenced variant (11168-GS), and both were found to have a lower-Mr LOS form, which was different in size and structure to the previously characterized higher-Mr form bearing GM1 mimicry. The lower-Mr form production was found to be dependent on the growth temperature as the production of this form increased from ~5 %, observed at 37 degreesC to ~35 % at 42 degrees C. The structure of the lower-Mr form contained a beta-D-Gal-(1-3)-beta-D-GalNAc disaccharide moiety which is consistent with the termini of the GM1, asialo-GM1, GD1, GT1 and GQ1 gangliosides, however, it did not display GM1 mimicry as assessed in blotting studies but was shown in NMR to resemble asialo-GM1. The production of multiple LOS forms and lack of GM1 mimicry was not a result of phase variation in the genes tested of NCTC 11168 and was also observed in most of the human and chicken isolates of C. jejuni tested.
The presence of differing amounts of LOS forms at 37 and 42 degreesC, and the variety of forms observed in different strains, indicate that LOS form variation may play a role in an adaptive mechanism or a stress response of the bacterium during the colonization of different hosts.


Additional Information
Date Published: 
BMC Microbiology
Evgeny A Semchenko, Christopher J Day, Jennifer C Wilson, Darren Grice, Anthony P Moran and Victoria Korolik
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Source Title: 
BMC Microbiology
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