Distinct B cell subsets in Peyer’s patches convey probiotic effects by Limosilactobacillus reuteri

Background Intestinal Peyer’s patches (PPs) form unique niches for bacteria-immune cell interactions that direct host immunity and shape the microbiome. Here we investigate how peroral administration of probiotic bacterium Limosilactobacillus reuteri R2LC affects B lymphocytes and IgA induction in the PPs, as well as the downstream consequences on intestinal microbiota and susceptibility to inflammation. Results The B cells of PPs were separated by size to circumvent activation-dependent cell identification biases due to dynamic expression of markers, which resulted in two phenotypically, transcriptionally, and spatially distinct subsets: small IgD + /GL7 − /S1PR1 + / Bcl6 , CCR6 -expressing pre-germinal center (GC)-like B cells with innate-like functions located subepithelially, and large GL7 + /S1PR1 − /Ki67 + / Bcl6 , CD69- expressing B cells with strong metabolic activity found in the GC. Peroral L. reuteri administration expanded both B cell subsets and enhanced the innate-like properties of pre-GC-like B cells while retaining them in the sub-epithelial compartment by increased sphingosine-1-phosphate/S1PR1 signaling. Furthermore, L. reuteri promoted GC-like B cell differentiation, which involved expansion of the GC area and autocrine TGFβ-1 activation. Consequently, PD-1-T follicular helper cell-dependent IgA induction and production was increased by L. reuteri , which shifted the intestinal microbiome and protected against dextran-sulfate-sodium induced colitis and dysbiosis. Conclusions The Peyer’s patches sense, enhance and transmit probiotic signals by increasing the numbers and effector functions of distinct B cell subsets, resulting in increased IgA production, altered intestinal microbiota, and protection against inflammation. 3CbyP5PufHSWXKDo4r3t6t Video abstract