Basophils from allergic patients are neither hyperresponsive to activation signals nor hyporesponsive to inhibition signals - 06/11/18
Abstract |
Background |
Basophil activation contributes to inflammatory reactions, especially in allergy. It is controlled, both positively and negatively, by several mechanisms. High-affinity IgE receptors (FcεRI) generate a mixture of activation and inhibition signals when aggregated, the ratio of which depends on the concentration of allergen recognized by receptor-bound IgE. Low-affinity IgG receptors (FcγRIIA/B) generate inhibition signals when coengaged with FcεRI by allergen-antibody immune complexes. Commensal and probiotic bacteria, such as Lactobacillus paracasei, generate inhibition signals through still unclear mechanisms.
Objective |
We sought to investigate whether mechanisms that control, both positively and negatively, basophil activation, which were unraveled and studied in basophils from healthy donors, are functional in allergic patients.
Methods |
FcεRI and FcγRIIA/B expression, FcεRI-dependent activation, FcεRI-dependent inhibition, and FcγRIIB-dependent inhibition were examined in blood basophils incubated overnight with or without L paracasei and challenged under 10 experimental conditions. Basophils from healthy donors were compared with basophils from patients who consulted an allergology outpatient clinic over a period of 3 months with respiratory allergy, anaphylaxis antecedents, chronic urticaria, and/or atopic dermatitis.
Results |
Patients' basophils expressed neither more FcεRI nor less FcγRIIB than basophils from healthy donors. They were neither hyperreactive to positive regulation nor hyporeactive to negative regulation, irrespective of the receptors or mechanisms involved and the allergic manifestations of the patients.
Conclusion |
Regulatory mechanisms that control basophil activation are fully functional in allergic patients. Intrinsic defects in these mechanisms do not explain allergic manifestations. Based on these mechanisms, immune checkpoint modifiers can be developed as novel therapeutic tools for allergy.
Le texte complet de cet article est disponible en PDF.Key words : Anaphylaxis, asthma, atopic dermatitis, basophil activation, chronic urticaria, FcεRI, FcγRIIB, lactobacilli, negative regulation, rhinitis
Abbreviations used : hIgE, MAR, RAHE, rIgE, SHIP1
Plan
| Disclosure of potential conflict of interest: L. Cassard has received personal fees from Danone Research; has a patent (WO2009068997; “Use of a L. casei strain, for the preparation of a composition for inhibiting mast cell activation”) issued; and has a patent (“Methods of inhibiting biological responses induced by a receptor that uses pi3k to signal in a cell”) pending. A. Cotillard reports fees from Danone Research to her company for her consulting work. R. Bourdet-Sicard is an employee of Danone Research and has a patent (WO2009068997; “Use of a L. casei strain, for the preparation of a composition for inhibiting mast cell activation”). M. L. Albert is an employee of Genentech. M. Daëron has received a grant, personal fees, and nonfinancial support from Danone Research; has a patent (WO2009068997; “Use of a L. casei strain, for the preparation of a composition for inhibiting mast cell activation”) issued; and has a patent (“Methods of inhibiting biological responses induced by a receptor that uses pi3k to signal in a cell”) pending. The rest of the authors declare that they have no relevant conflicts of interest. |
Vol 142 - N° 5
P. 1548-1557 - novembre 2018 Retour au numéro
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