Selective CAR T cell–mediated B cell depletion suppresses IFN signature in SLE
Artur Wilhelm, … , Georg Schett, Gerhard Krönke
Artur Wilhelm, … , Georg Schett, Gerhard Krönke
Published May 9, 2024
Citation Information: JCI Insight. 2024;9(12):e179433. https://doi.org/10.1172/jci.insight.179433.
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Research Article Immunology

Selective CAR T cell–mediated B cell depletion suppresses IFN signature in SLE

Abstract

Applying advanced molecular profiling together with highly specific targeted therapies offers the possibility to better dissect the mechanisms underlying immune-mediated inflammatory diseases such as systemic lupus erythematosus (SLE) in humans. Here we apply a combination of single-cell RNA-Seq and T/B cell repertoire analysis to perform an in-depth characterization of molecular changes in the immune-signature upon CD19 CAR T cell–mediated depletion of B cells in patients with SLE. The resulting data sets not only confirm a selective CAR T cell–mediated reset of the B cell response but simultaneously reveal consequent changes in the transcriptional signature of monocyte and T cell subsets that respond with a profound reduction in type I IFN signaling. Our current data, thus, provide evidence for a causal relationship between the B cell response and the increased IFN signature observed in SLE and additionally demonstrate the usefulness of combining targeted therapies and analytic approaches to decipher molecular mechanisms of immune-mediated inflammatory diseases in humans.

Authors

Artur Wilhelm, David Chambers, Fabian Müller, Aline Bozec, Ricardo Grieshaber-Bouyer, Thomas Winkler, Dimitrios Mougiakakos, Andreas Mackensen, Georg Schett, Gerhard Krönke

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Figure 1

scRNA-Seq–based analysis of PBMCs of patients with SLE.

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scRNA-Seq–based analysis of PBMCs of patients with SLE. (A–G) Single-cel...
(AG) Single-cell RNA-Seq–based (scRNA-Seq–based) analysis of peripheral blood mononuclear cells (PBMCs) of patients with SLE (n = 7) before CD19 CAR T cell therapy and after early B cell repopulation. Single data sets from each patient were integrated using the Seurat pipeline into one data set containing approximately 40,700 PBMC. (A) Dimensional reduction of PBMCs revealing indicated UMAP clusters where cluster identities were determined through top cluster gene analysis and the Enrichr package. (B and C) Comparison of single-cell data sets from patients with SLE before anti-CD19 CAR T cell therapy and after early B cell reconstitution. (D) Differential gene expression analysis on the effect of anti-CD19 CAR T cell therapy. (E) Pathway enrichment analysis based on changes in gene expression of total PBMCs. The color intensity reflects the adjusted P value for each pathway. (F) IFN-associated genes are highlighted in a normalized heatmap representing mean gene expression of interferon related genes (n = 15 unique genes) before and after CD19 CAR T cell treatment. (G) Gene expression levels of ISG15 and IRF7 as representative IFN-induced genes are highlighted as a feature plot and in violin plots illustrating expression levels on the basis of individual patients.