Single-cell landscape analysis unravels molecular programming of the human B cell compartment in chronic GVHD
Jonathan C. Poe, Jiyuan Fang, Dadong Zhang, Marissa R. Lee, Rachel A. DiCioccio, Hsuan Su, Xiaodi Qin, Jennifer Y. Zhang, Jonathan Visentin, Sonali J. Bracken, Vincent T. Ho, Kathy S. Wang, Jeremy J. Rose, Steven Z. Pavletic, Frances T. Hakim, Wei Jia, Amy N. Suthers, Itaevia M. Curry-Chisolm, Mitchell E. Horwitz, David A. Rizzieri, William C. McManigle, Nelson J. Chao, Adela R. Cardones, Jichun Xie, Kouros Owzar, Stefanie Sarantopoulos
Jonathan C. Poe, Jiyuan Fang, Dadong Zhang, Marissa R. Lee, Rachel A. DiCioccio, Hsuan Su, Xiaodi Qin, Jennifer Y. Zhang, Jonathan Visentin, Sonali J. Bracken, Vincent T. Ho, Kathy S. Wang, Jeremy J. Rose, Steven Z. Pavletic, Frances T. Hakim, Wei Jia, Amy N. Suthers, Itaevia M. Curry-Chisolm, Mitchell E. Horwitz, David A. Rizzieri, William C. McManigle, Nelson J. Chao, Adela R. Cardones, Jichun Xie, Kouros Owzar, Stefanie Sarantopoulos
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Resource and Technical Advance Immunology

Single-cell landscape analysis unravels molecular programming of the human B cell compartment in chronic GVHD

Abstract

Alloreactivity can drive autoimmune syndromes. After allogeneic hematopoietic stem cell transplantation (allo-HCT), chronic graft-versus-host disease (cGVHD), a B cell–associated autoimmune-like syndrome, commonly occurs. Because donor-derived B cells continually develop under selective pressure from host alloantigens, aberrant B cell receptor (BCR) activation and IgG production can emerge and contribute to cGVHD pathobiology. To better understand molecular programing of B cells in allo-HCT, we performed scRNA-Seq analysis on high numbers of purified B cells from patients. An unsupervised analysis revealed 10 clusters, distinguishable by signature genes for maturation, activation, and memory. Within the memory B cell compartment, we found striking transcriptional differences in allo-HCT patients compared with healthy or infected individuals, including potentially pathogenic atypical B cells (ABCs) that were expanded in active cGVHD. To identify intrinsic alterations in potentially pathological B cells, we interrogated all clusters for differentially expressed genes (DEGs) in active cGVHD versus patients who never had signs of immune tolerance loss (no cGVHD). Active cGVHD DEGs occurred in both naive and BCR-activated B cell clusters. Remarkably, some DEGs occurred across most clusters, suggesting common molecular programs that may promote B cell plasticity. Our study of human allo-HCT and cGVHD provides understanding of altered B cell memory during chronic alloantigen stimulation.

Authors

Jonathan C. Poe, Jiyuan Fang, Dadong Zhang, Marissa R. Lee, Rachel A. DiCioccio, Hsuan Su, Xiaodi Qin, Jennifer Y. Zhang, Jonathan Visentin, Sonali J. Bracken, Vincent T. Ho, Kathy S. Wang, Jeremy J. Rose, Steven Z. Pavletic, Frances T. Hakim, Wei Jia, Amy N. Suthers, Itaevia M. Curry-Chisolm, Mitchell E. Horwitz, David A. Rizzieri, William C. McManigle, Nelson J. Chao, Adela R. Cardones, Jichun Xie, Kouros Owzar, Stefanie Sarantopoulos

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Figure 2

Signature genes empirically assigned to biological pathways corroborate the interrelatedness and features of B cell development and activation among the 10 B cell clusters.

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Signature genes empirically assigned to biological pathways corroborate ...
(A) Signature (marker) genes related to B cell development and activation assessed in the 8 allo-HCT patients in the scRNA-Seq data set by manually interrogating the Kyoto Encyclopedia of Genes and Genomes (KEGG) and Gene Ontology (GO) databases. Each colored square represents a significant (Padj < 0.05) log fold-change (log FC) value for the gene indicated (rows), in the B cell cluster indicated (columns). Red shading indicates increased signature gene expression, while blue shading indicates decreased signature gene expression, as weighted against all other clusters. Genes were subdivided according to specific pathways as indicated by the Roman numerals at left and corresponding key below each heatmap. GC, germinal center. (B) Cartoon depiction of B cell clusters and their associated signature genes that may help categorize these subsets (as labeled at left). Signature genes encoding surface proteins are indicated. (C–F) Signature genes assessed as described in A within the major biological pathways indicated above each heatmap and subdivided by the more specific pathways indicated by the Roman numerals at left and corresponding keys below.