Abstract

The presence of IgE+ mast cells in the small intestine, bystander suppression of DTH and antibody responses to human serum albumin (HSA) were studied in young rats, made tolerant to ovalbumin (OA) by feeding an OA-containing diet for 1-4 weeks starting from weaning, and in sensitized control rats. One week after finishing the OA diet, both groups of rats were immunized with a mixture of OA and HSA in Freund's complete adjuvant (FCA) at one site on the back. The animals were then colonized for 5 days with a genetically manipulated Escherichia coli producing OA. Immunohistochemical staining of the small intestine of the rats fed the OA diet for 4 weeks showed significantly fewer IgE+ mast cells in the lamina propria, a lower level of MHC class antigen was found in the epithelial cells and in the lamina propria, and the villus crypt depth was also significantly less in tolerant compared with sensitized rats (P = 0.003, 0.007, 0.003, respectively). Sensitized rats showed a mild diarrhoea during the colonization in contrast to tolerant rats. All rats fed OA showed a significantly reduced IgE anti-OA antibody and DTH response to OA before colonization compared with the sensitized rats. Bystander suppression of IgG and IgE anti-HSA antibody responses was also seen, but only in the rats fed OA for either 1 or 4 weeks. Rats fed the OA-containing diet for 1, 3, or 4 weeks showed bystander suppression of the DTH response to HSA. After colonization with E. coli producing OA, rats tolerant to OA after either 1 or 4 weeks on an OA diet maintained tolerance to OA and bystander suppression HSA. These results suggest that oral tolerance to OA down-regulates signs of local inflammatory response by IgE, IgG antibody and T cell responses to OA, but also provides bystander suppression to an unrelated antigen, HSA.

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