PD01 - Respiratory allergens in human milk: potential impact on susceptibility to allergic airway disease

Poster discussion presentationInternational audienc

Impact of beastmilk vitamin A on oral tolerance induction in neonates and allergic diseases prevention

La constante augmentation des allergies en début de vie suggère une déficience de régulation immunitaire au cours de cette période. La tolérance orale est un mécanisme clé de régulation au niveau de l’intestin pour le maintien de l’homéostasie immunitaire. L’objectif de ma thèse a été de déterminer dans un modèle murin les mécanismes à l’origine de la tolérance orale en début de vie afin de mieux prévenir le développement d’allergies. L’induction de tolérance orale en début de vie n’est efficace qu’à partir de la 3ème semaine de vie. Le défaut de tolérance orale observé au cours des 2 premières semaines de vie est la conséquence d’un défaut de capture de l’antigène et d’expression de la RALDH (enzyme de conversion du rétinol en acide rétinoïque) par les cellules dendritiques CD103+ mésentériques, résultant en une ignorance de l’antigène. Les taux de rétinol sanguins en période néonatale sont très bas, et un enrichissement du lait maternel en vitamine A permet de corriger cette déficience néonatale ainsi que le défaut de présentation antigénique des cellules dendritiques CD103+. Cet enrichissement permet également de prévenir l’apparition de l’allergie dès les premiers jours de vie. De manière surprenante, alors que chez la souris adulte, la tolérance orale dépend de la génération de lymphocytes T régulateurs, la tolérance orale observée chez les souriceaux âgés de 3 semaines et chez les nouveau-nés ayant reçu de la vitamine A, dépend de la génération de lymphocytes Th1.Increased prevalence of allergies in early life suggests a deficiency of immune regulation during this period. Oral tolerance is a key immuno-regulatory mechanism in the gut for immune homeostasis. The principal objective of my thesis was to determine in a murine model the mechanisms at the origin of oral tolerance in early life to better prevent allergy development. We found that induction of oral tolerance in early life is effective only from the 3rd week of life. The defect of oral tolerance observed during the first 2 weeks of life is the consequence of a defect in antigen capture and RALDH expression (enzyme which converts retinol in retinoic acid) by mesenteric CD103+ dendritic cells. Serum levels of retinol in neonatal period are very low, and an enrichment of the maternal milk with vitamin A allows to correct this neonatal deficiency as well as the defect of antigen presentation by the CD103+ dendritic cells. This enrichment also allows allergy prevention from the first days of life. To our surprise, while in adult mice, oral tolerance depends on the generation of regulatory T lymphocytes, oral tolerance observed in the 3 week-old mice and in the newborn which received vitamin A, depends on the generation of Th1 lymphocytes. These results demonstrate that vitamin A levels in early life are directly correlated with Th1 differentiation induced by oral administration of allergen, necessary for allergy prevention. This knowledge should now be taken into account for the implementation of allergy prevention strategies, more specific and better adapted to the neonatal period, such as a supplementation with vitamin A

Impact de la vitamine A du lait maternel sur le développement de la tolérance orale chez le nouveau-né et la prévention des maladies allergiques

Increased prevalence of allergies in early life suggests a deficiency of immune regulation during this period. Oral tolerance is a key immuno-regulatory mechanism in the gut for immune homeostasis. The principal objective of my thesis was to determine in a murine model the mechanisms at the origin of oral tolerance in early life to better prevent allergy development. We found that induction of oral tolerance in early life is effective only from the 3rd week of life. The defect of oral tolerance observed during the first 2 weeks of life is the consequence of a defect in antigen capture and RALDH expression (enzyme which converts retinol in retinoic acid) by mesenteric CD103+ dendritic cells. Serum levels of retinol in neonatal period are very low, and an enrichment of the maternal milk with vitamin A allows to correct this neonatal deficiency as well as the defect of antigen presentation by the CD103+ dendritic cells. This enrichment also allows allergy prevention from the first days of life. To our surprise, while in adult mice, oral tolerance depends on the generation of regulatory T lymphocytes, oral tolerance observed in the 3 week-old mice and in the newborn which received vitamin A, depends on the generation of Th1 lymphocytes. These results demonstrate that vitamin A levels in early life are directly correlated with Th1 differentiation induced by oral administration of allergen, necessary for allergy prevention. This knowledge should now be taken into account for the implementation of allergy prevention strategies, more specific and better adapted to the neonatal period, such as a supplementation with vitamin A.La constante augmentation des allergies en début de vie suggère une déficience de régulation immunitaire au cours de cette période. La tolérance orale est un mécanisme clé de régulation au niveau de l’intestin pour le maintien de l’homéostasie immunitaire. L’objectif de ma thèse a été de déterminer dans un modèle murin les mécanismes à l’origine de la tolérance orale en début de vie afin de mieux prévenir le développement d’allergies. L’induction de tolérance orale en début de vie n’est efficace qu’à partir de la 3ème semaine de vie. Le défaut de tolérance orale observé au cours des 2 premières semaines de vie est la conséquence d’un défaut de capture de l’antigène et d’expression de la RALDH (enzyme de conversion du rétinol en acide rétinoïque) par les cellules dendritiques CD103+ mésentériques, résultant en une ignorance de l’antigène. Les taux de rétinol sanguins en période néonatale sont très bas, et un enrichissement du lait maternel en vitamine A permet de corriger cette déficience néonatale ainsi que le défaut de présentation antigénique des cellules dendritiques CD103+. Cet enrichissement permet également de prévenir l’apparition de l’allergie dès les premiers jours de vie. De manière surprenante, alors que chez la souris adulte, la tolérance orale dépend de la génération de lymphocytes T régulateurs, la tolérance orale observée chez les souriceaux âgés de 3 semaines et chez les nouveau-nés ayant reçu de la vitamine A, dépend de la génération de lymphocytes Th1

TGFβ Receptor mutations alter mast cell development and function

Abstract Mutations in TGFBRI, encoding the receptor for TGFβ, cause Loeys-Dietz syndrome (LDS), a Mendelian disorder associated with an increased risk of developing nearly all forms of allergic disease, including food allergy. To better understand the mechanisms responsible for this association, knock-in mice harboring LDS mutations have been developed, which recapitulate nearly all aspects of the human phenotype. Mast cells are the main effector cells of allergic disease and several studies have identified TGFβ as a critical mediator of mast cell development and function. We hypothesized that LDS mast cells are altered in a manner that would promote greater susceptibility to allergic outcomes. To address this possibility, in vitro assays were performed with peritoneal mast cells (pMCs) cultured in IL-3 and stem cell factor and stimulated with IL-33, TGFβ, or IgE crosslinking agents. LDS pMCs expressed higher levels of ST2, the receptor for IL-33, and greater secretion of IL-9 following IL-33 stimulation. Furthermore, LDS pMCs were more resistant to apoptosis, exhibited greater degranulation following IgE receptor crosslinking, and showed less downregulation of FcɛRI and c-kit following exposure to recombinant TGFβ1. This was associated with reduced pSmad2/3 levels, a key signaling molecule in the TGFβ pathway. Furthermore, we demonstrated that following food allergy induction, LDS mice exhibited greater MC hyperplasia in the small intestinal lamina propria as well as in the peritoneum where LDS peritoneal mast cells showed enhanced secretion of IL-9. In vivo studies are ongoing to further examine the role of altered mast cell frequency and/or function resulting from altered TGFβ signaling in promoting food-induced anaphylaxis.</jats:p

PD01 - Respiratory allergens in human milk: potential impact on susceptibility to allergic airway disease

Poster discussion presentationInternational audienc