BACKGROUND: Recent data suggested that non-gastrointestinal exposure can lead to sensitisation to food allergens. We thus assessed the immune impact of respiratory or cutaneous exposure to peanut proteins on non-altered epithelium and investigated the effect of such pre-exposure on subsequent oral administration of peanut. METHODS: BALB/cJ mice were exposed to purified Ara h 1 or to a non-defatted roasted peanut extract (PE) by simple deposit of allergens solutions on non-altered skin or in the nostrils. Exposures were performed 6 times at weekly intervals. Pre-exposed mice then received intra-gastric administrations of PE alone or in the presence of the Th2 mucosal adjuvant cholera toxin (CT). The specific humoral and cellular immune response was assessed throughout the protocol. RESULTS: Both cutaneous and respiratory exposures led to the production of specific IgG1. Local and systemic IL-5 and IL-13 production were also evidenced, demonstrating activation of specific Th2 cells. This effect was dose-dependent and most efficient via the respiratory route. Moreover, these pre-exposures led to the production of specific IgE antibodies after gavage with PE, whatever the presence of CT. CONCLUSIONS: Cutaneous or respiratory exposures to peanut induce Th2 priming in mice. Moreover, pre-exposures promote further sensitisation via the oral route without the use of CT; this proposes a new adjuvant-free experimental model of sensitisation to food that may reflect a realistic exposure pattern in infants. These results also suggest that non-gastrointestinal peanut exposure should be minimised in high-risk infants, even those with non-altered skin, to potentially reduce allergic sensitisation to this major food allergen.
BACKGROUND: Recent data suggested that non-gastrointestinal exposure can lead to sensitisation to food allergens. We thus assessed the immune impact of respiratory or cutaneous exposure to peanut proteins on non-altered epithelium and investigated the effect of such pre-exposure on subsequent oral administration of peanut. METHODS: BALB/cJ mice were exposed to purified Ara h 1 or to a non-defatted roasted peanut extract (PE) by simple deposit of allergens solutions on non-altered skin or in the nostrils. Exposures were performed 6 times at weekly intervals. Pre-exposed mice then received intra-gastric administrations of PE alone or in the presence of the Th2 mucosal adjuvant cholera toxin (CT). The specific humoral and cellular immune response was assessed throughout the protocol. RESULTS: Both cutaneous and respiratory exposures led to the production of specific IgG1. Local and systemic IL-5 and IL-13 production were also evidenced, demonstrating activation of specific Th2 cells. This effect was dose-dependent and most efficient via the respiratory route. Moreover, these pre-exposures led to the production of specific IgE antibodies after gavage with PE, whatever the presence of CT. CONCLUSIONS:Cutaneous or respiratory exposures to peanut induce Th2 priming in mice. Moreover, pre-exposures promote further sensitisation via the oral route without the use of CT; this proposes a new adjuvant-free experimental model of sensitisation to food that may reflect a realistic exposure pattern in infants. These results also suggest that non-gastrointestinal peanut exposure should be minimised in high-risk infants, even those with non-altered skin, to potentially reduce allergic sensitisation to this major food allergen.
Authors: Johanna M Smeekens; Robert M Immormino; Peter A Balogh; Scott H Randell; Michael D Kulis; Timothy P Moran Journal: Clin Exp Allergy Date: 2019-09-10 Impact factor: 5.018
Authors: Matthew T Walker; Jeremy E Green; Ryan P Ferrie; Ashley M Queener; Mark H Kaplan; Joan M Cook-Mills Journal: J Allergy Clin Immunol Date: 2018-02-15 Impact factor: 10.793
Authors: Laure Castan; Katrine L Bøgh; Natalia Z Maryniak; Michelle M Epstein; Sahar Kazemi; Liam O'Mahony; Marie Bodinier; Joost J Smit; Jolanda H M van Bilsen; Carine Blanchard; Robert Głogowski; Hana Kozáková; Martin Schwarzer; Mario Noti; Nicole de Wit; Grégory Bouchaud; Shanna Bastiaan-Net Journal: Allergy Date: 2019-07-09 Impact factor: 13.146
Authors: Lauren M Buelow; Akihiko Hoji; Kiet Tat; Lindsay M Schroeder-Carter; Daniela J Carroll; Joan M Cook-Mills Journal: Front Allergy Date: 2021-09-06