Influence of the route of administration on immunomodulatory properties of bovine beta-lactoglobulin-producing Lactobacillus casei

International audienceBecause of their intrinsic immunomodulatory properties, some lactic acid bacteria were reported to modulate allergic immune responses in mice and humans. We recently developed recombinant strains of Lactobacillus casei that produce beta-lactoglobulin (BLG), a major cow's milk allergen. Here, we investigated immunomodulatory potency of intranasal and oral administrations of recombinant lactobacilli on a subsequent sensitization of mice to BLG. Intranasal administration of the BLG-producing Lb. casei stimulated serum BLG-specific IgG2a and IgG1 responses, and fecal IgA response as well, but did not inhibit BLG-specific IgE production. In contrast, oral administration led to a significant inhibition of BLG-specific IgE production while IgG1 and IgG2a responses were not stimulated. After both oral and intranasal administrations, production of IL-17 cytokine by BLG-reactivated splenocytes was similarly enhanced, thus confirming the adjuvant effect of the Lb. casei strain. However, a mixed Th1/Th2 cell response was evidenced in BLG-reactivated splenocytes from mice intranasally pretreated, with enhanced secretions of Th1 cytokines (IFN-gamma and IL-12) and Th2 cytokines (IL-4 and IL-5) whereas only production of Th1 cytokines, but not Th2 cytokines, was enhanced in BLG-reactivated splenocytes from mice orally pretreated. Our results show that the mode of administration of live bacteria may be critical for their immunomodulatory effects

Allergic sensitization to bovine beta-lactoglobulin: comparison between germ-free and conventional BALB/c mice

International audienceBackground: The 'hygiene hypothesis' suggests that high hygienic standards met in western countries lead to a lack of microbial exposure, thus promoting the development of atopy by preventing the proper maturation of the immune system. Germ-free animals are deprived of the immune stimulation that occurs during postnatal gut colonization by commensal bacteria. Germ-free mice could thereby provide an attractive model for studying the impact of gut microbiota on the development of Th2-mediated disorders such as allergy. Methods: Germ-free and conventional BALB/c mice were sensitized to beta-lactoglobulin (BLG), a major cow's milk allergen, by means of intraperitoneal injections in the presence of incomplete Freund's adjuvant. Time courses of serum and fecal BLG-specific antibody responses were monitored and cytokine production was assayed in BLG-reactivated splenocytes. Results: Serum BLG-specific IgG1 and IgE concentrations were significantly higher in germ-free mice during the primary immune response and IgE production persisted longer in germ-free mice. Furthermore, secretion of BLG-specific IgA was evidenced only in feces from germfree mice while, in contrast, fecal IgG1 concentrations were at least 3-fold higher in conventional mice than in germ-free mice. Production of IL-5, IL-10 and IFN-gamma was 3-fold enhanced in BLG-reactivated splenocytes from germ-free mice. Conclusion: The absence of gut microbiota significantly affects the BLG-specific immune response in BALB/c mice, thus suggesting that this model might be of interest for further studies exploring the influence of gut colonization by different bacterial strains on the development of an allergic-type sensitization

Specificity of IgE antibodies from patients allergic to goat's milk and tolerant to cow's milk determined with plasmin-derived peptides of bovine and caprine β-caseins

International audienceScope Despite a sequence homology of 90% between bovine and caprine beta-caseins (CN), IgE antibodies from patients allergic to goat's milk (GM), but tolerant to cow's milk (CM), recognize caprine beta-CN without cross-reacting with bovine beta-CN. We investigated this lack of cross-reactivity by evaluating the IgE-reactivity toward peptides isolated from plasmin hydolysates of bovine and caprine beta-CN. Methods and results The IgE-binding capacity of plasmin-derived peptides was evaluated with sera from 10 CM-allergic patients and 12 GM-allergic/CM-tolerant patients. In CM-allergic patients, IgE reactivity of caprine fragments (f29-107) and (f108-207), but not (f1-28), was similar to that of the bovine counterparts. In contrast, all bovine fragments were poorly recognized by IgE antibodies from GM-allergic/CM-tolerant patients. The peptide (f29-107) was generally the most immunoreactive fragment of caprine beta-CN. By using synthetic peptides, the immunodominant IgE-binding epitope recognized by most GM-allergic/CM-tolerant patients was located in the caprine domain 4979. Conclusion The restricted specificity of the IgE response toward the caprine beta-CN in GM-allergic/CM-tolerant patients is mainly directed against the domain 4979, which differs from its bovine counterpart by only three amino acid substitutions

Identification of structural determinants supporting the absence of IgE cross-reactivity between caprine and bovine β-caseins in patients allergic to goat's milk but tolerant to cow's milk

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