Allergen-specific IgG+ memory B cells are temporally linked to IgE memory responses - 22/07/20
Abstract |
Background |
IgE is the least abundant immunoglobulin and tightly regulated, and IgE-producing B cells are rare. The cellular origin and evolution of IgE responses are poorly understood.
Objective |
The cellular and clonal origin of IgE memory responses following mucosal allergen exposure by sublingual immunotherapy (SLIT) were investigated.
Methods |
In a randomized double-blind, placebo-controlled, time course SLIT study, PBMCs and nasal biopsy samples were collected from 40 adults with seasonal allergic rhinitis at baseline and at 4, 8, 16, 28, and 52 weeks. RNA was extracted from PBMCs, sorted B cells, and nasal biopsy samples for heavy chain variable gene repertoire sequencing. Moreover, mAbs were derived from single B-cell transcriptomes.
Results |
Combining heavy chain variable gene repertoire sequencing and single-cell transcriptomics yielded direct evidence of a parallel boost of 2 clonally and functionally related B-cell subsets of short-lived IgE+ plasmablasts and IgG+ memory B cells. Mucosal grass pollen allergen exposure by SLIT resulted in highly diverse IgE and IgGE repertoires. These were extensively mutated and appeared relatively stable as per heavy chain isotype, somatic hypermutations, and clonal composition. Single IgGE+ memory B-cell and IgE+ preplasmablast transcriptomes encoded antibodies that were specific for major grass pollen allergens and able to elicit basophil activation at very low allergen concentrations.
Conclusion |
For the first time, we have shown that on mucosal allergen exposure, human IgE memory resides in allergen-specific IgG+ memory B cells. These cells rapidly switch isotype, expand into short-lived IgE+ plasmablasts, and serve as a potential target for therapeutic intervention.
Il testo completo di questo articolo è disponibile in PDF.Graphical abstract |
Key words : IGe, sublingual immunotherapy, grass pollen allergy, B cells, plasmablasts, memory B cells
Abbreviations used : CDR, FACS, GC, IgGE, SHM, SLIT, VH
Mappa
| Supported by the Innovation Fund Denmark (grant 5184-00010B [to P.S.A.]), the National Institute of Health (Sequencer grant S10OD016262 [to G.S.]), the National Institute of Allergy and Infectious Diseases of the National Institutes of Health (grant U19AI135731 [to B.P.]), and the Imperial College (research funds to M.S). The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Institutes of Health. |
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| Disclosure of potential conflict of interest: I. Hoof, T. Stranzl, L. H. Christensen, C. Lundegaard, J. Ahrenfeldt, J. Holm, and P. S. Andersen are employees of ALK-Abelló. M. H. Shamji serves as a consultant for Imperial College London and receives lecture fees from ALK-Abelló, ASIT Biotech, Allergopharma, and UCB. S. R. Durham receives grant support from the Immune Tolerance Network, National Institute of Allergy and Infectious Diseases, ALK-Abelló, Regeneron, and Biotech Tools and serves as a consultant from Anergis, Circassia, Biomay, Merck, Allergy Therapeutics, Med Update GmbH, and Food Standards. The rest of the authors declare that they have no relevant conflicts of interest. |
Vol 146 - N° 1
P. 180-191 - Luglio 2020 Ritorno al numero
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