Conserved interactions with stromal and immune cells coordinate de novo B cell lymphopoiesis in fetal intestines
Kimberly A. Carroll, Weihong Gu, Long Phan, Eduardo Gonzalez Santiago, Wenjia Wang, George C. Tseng, Liza Konnikova, Shruti Sharma
Kimberly A. Carroll, Weihong Gu, Long Phan, Eduardo Gonzalez Santiago, Wenjia Wang, George C. Tseng, Liza Konnikova, Shruti Sharma
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Research Article Development Immunology

Conserved interactions with stromal and immune cells coordinate de novo B cell lymphopoiesis in fetal intestines

Abstract

Recent findings suggest that the small intestine (SI) is a potentially novel site for B cell lymphopoiesis during fetal and neonatal life. However, the unique and/or conserved features that enable B cell development at this site remain unclear. To investigate the molecular and cellular scaffolds for B cell lymphopoiesis in mouse and human fetal intestines, we leveraged single-cell RNA-Seq, in situ immunofluorescence, spatial transcriptomics, and high-dimensional spectral flow cytometry. We found that SI mesenchymal and stromal cells expressed higher levels of chemokines known to recruit common lymphoid progenitors. Importantly, local lymphatic endothelial cells expressed IL-7 and TSLP in proximity to IL-7R+ precursor B cells, likely promoting their differentiation in the SI. Notably, we found that fetal-derived lymphoid tissue inducer (LTi) cells were required for B cell development and localization in the SI, but not fetal liver. These findings identify a lymphoid tissue development–independent role for this immune cell in B cell development. Collectively, our data reveal a conserved intestinal B cell niche in mice and humans, challenging traditional models of lymphopoiesis. The identification of a requisite cellular/molecular scaffold for fetal B cell development allows future studies to test the importance of this de novo B cell lymphopoiesis to long-term immunity.

Authors

Kimberly A. Carroll, Weihong Gu, Long Phan, Eduardo Gonzalez Santiago, Wenjia Wang, George C. Tseng, Liza Konnikova, Shruti Sharma

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Figure 5

LTi cells are essential for intestinal B cell development in fetal mice.

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LTi cells are essential for intestinal B cell development in fetal mice....
(A) Graphical diagram of LTi development as it is known in the fetal liver through transcriptional activation of RORγt. (B) Gating strategy to identify LTi cells in intestinal tissues of WT or RORγtKO mice. (C) Percentage of LTi cells out of CD45+ cells based on gating in B by Student’s t test; ***P < 0.001 (n = 3–4). (D and E) Percentage of total B220+ cells (D) or B220+CD19+ (E) cells out of live cells based on gating in Supplemental Figure 2B. (Student’s t test, **P < 0.01, n = 3–7). (F) Pie chart with average frequencies of total B cells from gates in Figure 2D (n = 3–7) in WT or KO mice. Each color corresponds to a specific cell population, and numbers are listed as a percentage of total B cells. (G) Gating strategy to identify B-1a cells (CD45+, CD19+, and CD5+) in intestinal tissues of WT or RORγtKO mice. (H) Percentage of B-1a cells out of CD19+ cells (Student’s t test, ****P < 0.0001, n = 3–4). (I) Representative immunofluorescence image of intestinal tissue (E18.5) from RORγtKO mice showing nuclear stain DAPI (blue), B220-FITC (red), and LYVE1-AF555 (cyan) with a selected, zoomed ROI with arrowheads to identify B cells. (J) Measured distance to nearest LYVE1 LECs with dots corresponding to individual cell distances (n = 3) with mean distance highlighted by dotted line. Statistics calculated based on the average distance between B cells and LYVE1 cells within (n = 3–4) tissue sections (Supplemental Figure 6B), with Student’s t test; *P < 0.05. (K) Modified graphical diagram (Figure 2B) depicting reduction in B cell development in intestinal tissue. Scale bar: 100 µM.