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An integrin αEβ7-dependent mechanism of IgA transcytosis requires direct plasma cell contact with intestinal epithelium

Mauricio Guzmán, Luke R Lundborg, Shaila Yeasmin, Christopher J. Tyler, Nadia R. Zgajnar, Vanessa Taupin, Katarzyna Dobaczewska, Zbigniew Mikulski, Giorgos Bamias, Jesús Rivera–Nieves

2021Mucosal Immunology17 citationsDOIOpen Access PDF

Abstract

Efficient IgA transcytosis is critical for the maintenance of a homeostatic microbiota. In the canonical model, locally-secreted dimeric (d)IgA reaches the polymeric immunoglobulin receptor (pIgR) on intestinal epithelium via simple diffusion. A role for integrin αE(CD103)β7 during transcytosis has not been described, nor its expression by intestinal B cell lineage cells. We found that αE-deficient (αE −/− ) mice have a luminal IgA deficit, despite normal antibody-secreting cells (ASC) recruitment, local IgA production and increased pIgR expression. This deficit was not due to dendritic cell (DC)-derived retinoic acid (RA) nor class-switching defects, as stool from RAG −/− mice reconstituted with αE −/− B cells was also IgA deficient. Flow cytometric, ultrastructural and transcriptional profiling showed that αEβ7-expressing ASC represent an undescribed subset of terminally-differentiated intestinal plasma cells (PC) that establishes direct cell to cell contact with intestinal epithelium. We propose that IgA not only reaches pIgR through diffusion, but that αEβ7+ PC dock with E-cadherin-expressing intestinal epithelium to directly relay IgA for transcytosis into the intestinal lumen.

Topics & Concepts

TranscytosisPolymeric immunoglobulin receptorCell biologyIntestinal epitheliumBiologyImmunoglobulin AEpitheliumAntibodyIntestinal mucosaTight junctionImmunologyReceptorImmunoglobulin GInternal medicineEndocytosisMedicineBiochemistryGeneticsT-cell and B-cell ImmunologyCell Adhesion Molecules ResearchImmune Cell Function and Interaction
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