Bernadette Turner scite author profile

SummaryThe gut mucosal system must fulfil conflicting roles in suppressing immune responses against orally fed antigens (tolerance) while still retaining the ability to respond to potential enteric pathogens. It must also, to a large degree, not mount an immune response against commensal enteric bacteria and the administration of large numbers of probiotic bacteria formulated as dietary supplements in food products. Contrary to this dogma, it has been found that feeding ovalbumin as a marker antigen, in association with selected probiotic bacteria, appears to prime for an intestinal immune response that is further augmented by skin vaccination. Skin immunization is known to stimulate a strong innate, humoral and cellular immune response. Such dominant immunogenic signals appear to override tolerogenic signals engendered by oral feeding of antigen. High-dose antigen feeding stimulated a strong Th2-dependent antibody response to skin vaccination but completely suppressed cytotoxic T cell responses. This was true even when ovalbumin was administered in conjunction with various selected probiotic bacteria. However, while yeast appeared to be better at priming for an enhanced humoral response, Lactobacillus fermentum and Staphylococcus carnosus were more effective in enhancing the postvaccinal lymphoproliferative response against ovalbumin.

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Evaluation of serovar‐independent ELISA antigens of Actinobacillus pleuropneumoniae in pigs, following experimental challenge with A. pleuropneumoniae, Mycoplasma hyopneumoniae and Pasteurella multocida

Eamens

Gonsalves²,

Whittington³

et al. 2012

Aust Veterinary J

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Evaluation of Erysipelothrix rhusiopathiae vaccines in pigs by intradermal challenge and immune responses

Eamens

Chin

Turner

et al. 2006

Veterinary Microbiology

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The metabolism of acetate by rumen microorganisms

Emmanuel¹,

Milligan²,

Turner³

1974

Can. J. Microbiol.

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Rumen contents were incubated in vitro with acetate-1-14C. Significant amounts of 14C were incorporated into rumen microbial proteins, nucleic acids, and lipids. Serine, glutamic acid, methionine, and cystine were highly labeled, whereas less, or insignificant radioactivity was found in other amino acids. Acetate was incorporated into a wide range of microbial fatty acids. The quantitative significance of acetate metabolism is discussed.

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