Transcriptomic profiling after B cell depletion reveals central and peripheral immune cell changes in multiple sclerosis
Jessica Wei, … , Pierre-Paul Axisa, David A. Hafler
Jessica Wei, … , Pierre-Paul Axisa, David A. Hafler
Published March 11, 2025
Citation Information: J Clin Invest. 2025;135(11):e182790. https://doi.org/10.1172/JCI182790.
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Research Article Autoimmunity Immunology

Transcriptomic profiling after B cell depletion reveals central and peripheral immune cell changes in multiple sclerosis

Abstract

Multiple sclerosis (MS) is a complex, genetically mediated autoimmune disease of the CNS, in which anti-CD20–mediated B cell depletion is remarkably effective in the treatment of early disease. Although previous studies investigated the effect of B cell depletion on select immune cell subsets using flow cytometry–based methods, the therapeutic effect on the patient’s immune landscape is unknown. In this study, we explored how B cell–depleting therapies modulate the immune landscape using single-cell RNA-Seq. We demonstrate that B cell depletion led to cell-type–specific changes in the abundance and function of cerebrospinal fluid (CSF) macrophages and peripheral blood monocytes. Specifically, a CSF-specific macrophage population with an antiinflammatory transcriptomic signature and peripheral CD16+ monocytes increased in frequency after B cell depletion. This was accompanied by increases in TNF-α mRNA and protein levels in monocytes following B cell depletion, consistent with the finding that anti–TNF-α treatment exacerbated autoimmune activity in MS. In parallel, B cell depletion induced changes in peripheral CD4+ T cell populations, including increases in the frequency of TIGIT+ Tregs and marked decreases in the frequency of myelin peptide–loaded, tetramer-binding CD4+ T cells. Collectively, this study provides an exhaustive transcriptomic map of immunological changes, revealing different cell-type–specific reprogramming as a result of B cell depletion treatment of MS.

Authors

Jessica Wei, Jeonghyeon Moon, Yoshiaki Yasumizu, Le Zhang, Khadir Radassi, Nicholas Buitrago-Pocasangre, M. Elizabeth Deerhake, Nicolas Strauli, Chun-Wei Chen, Ann Herman, Rosetta Pedotti, Catarina Raposo, Isaiah Yim, Jenna Pappalardo, Erin E. Longbrake, Tomokazu S. Sumida, Pierre-Paul Axisa, David A. Hafler

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Figure 7

B cell depletion induces an increase in TIGIT+ Tregs and reduces autoreactive T cells.

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B cell depletion induces an increase in TIGIT+ Tregs and reduces autorea...
(A) Visualization of Treg population extraction and changes after B cell depletion treatment. Predicted CD4+ T clusters and Tregs (outlined by dotted line) on UMAP plot (left). Re-embedding of extracted Tregs using UMAP (top right). B cell depletion treatment–associated relative likelihood in Treg populations calculated using MELD (bottom right). (B) Frequency changes of each subpopulation within the Treg group. (C) Volcano plot depicting DEGs in Tregs, particularly highlighting genes encoding surface proteins. (D) Heatmap displaying predicted interactions between myeloid cell–derived ligands (limited to genes differentially regulated with B cell depletion treatment) and Treg-derived receptors, weighted by prior interaction potential. (E and F) Flow cytometric data of Treg frequencies (E) and TIGIT protein expression by Tregs (F) in MS patient PBMCs (n = 20) after B cell depletion treatment. (G) Flow cytometric analysis of myelin tetramer–reactive CD4+ T cell frequencies (Freq.) at the pre-treatment and 6-month post-treatment time points (n = 7). (H) Cell frequencies of Tfh (CD45RACXCR5+) and Th17 (CCR6+CXCR3) in tetramer-reactive CD4+ T cells at pre-treatment and 6-month post-treatment time points (n = 7)”. P values were calculated using the Wald test of regression coefficients.