Stromal Notch ligands foster lymphopenia-driven functional plasticity and homeostatic proliferation of naive B cells
Daniela Gómez Atria, … , David Allman, Ivan Maillard
Daniela Gómez Atria, … , David Allman, Ivan Maillard
Published May 17, 2022
Citation Information: J Clin Invest. 2022;132(13):e158885. https://doi.org/10.1172/JCI158885.
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Research Article Immunology

Stromal Notch ligands foster lymphopenia-driven functional plasticity and homeostatic proliferation of naive B cells

Abstract

In lymphopenic environments, secondary lymphoid organs regulate the size of B and T cell compartments by supporting the homeostatic proliferation of mature lymphocytes. The molecular mechanisms underlying these responses and their functional consequences remain incompletely understood. To evaluate homeostasis of the mature B cell pool during lymphopenia, we turned to an adoptive transfer model of purified follicular B cells into Rag2–/– mouse recipients. Highly purified follicular B cells transdifferentiated into marginal zone–like B cells when transferred into Rag2–/– lymphopenic hosts but not into wild-type hosts. In lymphopenic spleens, transferred B cells gradually lost their follicular phenotype and acquired characteristics of marginal zone B cells, as judged by cell surface phenotype, expression of integrins and chemokine receptors, positioning close to the marginal sinus, and an ability to rapidly generate functional plasma cells. Initiation of follicular to marginal zone B cell transdifferentiation preceded proliferation. Furthermore, the transdifferentiation process was dependent on Notch2 receptors in B cells and expression of Delta-like 1 Notch ligands by splenic Ccl19-Cre+ fibroblastic stromal cells. Gene expression analysis showed rapid induction of Notch-regulated transcripts followed by upregulated Myc expression and acquisition of broad transcriptional features of marginal zone B cells. Thus, naive mature B cells are endowed with plastic transdifferentiation potential in response to increased stromal Notch ligand availability during lymphopenia.

Authors

Daniela Gómez Atria, Brian T. Gaudette, Jennifer Londregan, Samantha Kelly, Eric Perkey, Anneka Allman, Bhaskar Srivastava, Ute Koch, Freddy Radtke, Burkhard Ludewig, Christian W. Siebel, Russell J.H. Ryan, Tanner F. Robertson, Janis K. Burkhardt, Warren S. Pear, David Allman, Ivan Maillard

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Figure 8

Stroma-derived Dll1 Notch ligands drive B cell transdifferentiation and plasma cell differentiation in lymphopenic recipients.

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Stroma-derived Dll1 Notch ligands drive B cell transdifferentiation and ...
B6 versus Rag2–/– versus Rag2–/– crossed to Ccl19-Cre Dll1fl/fl hosts were treated with isotype control or anti-Dll1 antibodies at days 0, 3, and 6 after transfer of purified B6-CD45.1 FoB cells. Flow cytometry and immunofluorescence imaging were performed on recipient splenocytes at day 8 after transfer. (A) Representative flow cytometry plots depicting live CD45.1+CD19+CD93 donor-derived mature B cells recovered at day 8 from B6 or indicated Rag2–/– recipients. (B) Percentage and (C) absolute numbers of CD45.1+ MZB cells at day 8 in each recipient group. (D) Histograms depicting cell surface expression of markers and CTV dilution on donor derived CD45.1+ B cells in B6 (black), Rag2–/– (red), or indicated Rag2–/– recipients. (E) Representative flow cytometry plots showing live donor-derived CD138+ plasma cells at day 8 in B6 or indicated Rag2–/– recipients. (F) Percentage and (G) absolute numbers of donor-derived plasma cells at day 8 in each recipient group. (H) Immunofluorescence microscopy of spleen sections of B6, Rag2–/–, and Rag2–/– Ccl19-Cre Dll1fl/fl recipients at day 8 after adoptive transfer, with labeled CD45.1+ cells (green), CTV (blue), CD169 (white), and laminin (red). Dotted regions are magnified in the second row of images. Scale bars: 50 μm. Data are from 2 independent experiments. (B, F, and G) *P < 0.05, **P < 0.01, and ****P < 0.0001, by 1-way ANOVA. Each data point represents an individual mouse.