Single-cell immunophenotyping of the skin lesion erythema migrans identifies IgM memory B cells
Ruoyi Jiang, Hailong Meng, Khadir Raddassi, Ira Fleming, Kenneth B. Hoehn, Kenneth R. Dardick, Alexia A. Belperron, Ruth R. Montgomery, Alex K. Shalek, David A. Hafler, Steven H. Kleinstein, Linda K. Bockenstedt
Ruoyi Jiang, Hailong Meng, Khadir Raddassi, Ira Fleming, Kenneth B. Hoehn, Kenneth R. Dardick, Alexia A. Belperron, Ruth R. Montgomery, Alex K. Shalek, David A. Hafler, Steven H. Kleinstein, Linda K. Bockenstedt
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Research Article Immunology Infectious disease

Single-cell immunophenotyping of the skin lesion erythema migrans identifies IgM memory B cells

Abstract

The skin lesion erythema migrans (EM) is an initial sign of the Ixodes tick–transmitted Borreliella spirochetal infection known as Lyme disease. T cells and innate immune cells have previously been shown to predominate the EM lesion and promote the reaction. Despite the established importance of B cells and antibodies in preventing infection, the role of B cells in the skin immune response to Borreliella is unknown. Here, we used single-cell RNA-Seq in conjunction with B cell receptor (BCR) sequencing to immunophenotype EM lesions and their associated B cells and BCR repertoires. We found that B cells were more abundant in EM in comparison with autologous uninvolved skin; many were clonally expanded and had circulating relatives. EM-associated B cells upregulated the expression of MHC class II genes and exhibited preferential IgM isotype usage. A subset also exhibited low levels of somatic hypermutation despite a gene expression profile consistent with memory B cells. Our study demonstrates that single-cell gene expression with paired BCR sequencing can be used to interrogate the sparse B cell populations in human skin and reveals that B cells in the skin infection site in early Lyme disease expressed a phenotype consistent with local antigen presentation and antibody production.

Authors

Ruoyi Jiang, Hailong Meng, Khadir Raddassi, Ira Fleming, Kenneth B. Hoehn, Kenneth R. Dardick, Alexia A. Belperron, Ruth R. Montgomery, Alex K. Shalek, David A. Hafler, Steven H. Kleinstein, Linda K. Bockenstedt

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Figure 3

B cells in EM lesions express high levels of MHC class II genes and signatures of IFN gene signaling and antigen presentation.

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B cells in EM lesions express high levels of MHC class II genes and sign...
(A) Heatmap of top 20 and bottom 20 DEGs for B cells from EM compared with B cells from uninvolved skin based on absolute average minimum gene expression difference (see Methods). (B) enrichR gene ontology analysis of the top 40 genes upregulated in B cells from EM tissue. Red bars correspond to the top significantly associated gene ontology assignments (P < 0.05 by Wilcoxon’s test). Gene expression of the “HLA-DRA” MHCII gene displayed over a UMAP projection of all single-cell gene expression data from the 6 subjects with the intensity of shading correlated with the normalized expression in either uninvolved (C) or EM skin (D). The arrow points to the location of the B cell single-gene expression cluster. Data for the same n = 6 subjects from cohort 1 are shown for all panels. EM, erythema migrans; DEGs, differentially expressed genes.