Single Cell RNA Sequencing of Human Liver Infiltrating B Cells in Primary Biliary Cholangitis (PBC)

Abstract

Abstract Increasing evidence supports the concept that dysregulated B cell differentiation and activation are pivotal in the initiation and progression of autoimmune disorders, in both antibody (Ab)-dependent and Ab-independent mechanisms. Antimitochondrial antibodies (AMA), the serologic hallmark of PBC, are present in greater than 95% of patients with PBC, with a long latency period between the detection of autoantibodies and the onset of clinical disease. However, the mechanisms involved in the role of B cells in the pathogenesis of PBC have remained enigmatic. Herein, we have applied scRNA sequencing to simultaneously characterize B cell repertoire and transcriptome status in blood-liver paired samples from patients with PBC. Our data reveal that there is a dramatic increase in the heterogeneity of the blood CD27− B-cell population in PBC as compared to control. Strikingly, this overwhelmingly expanded naïve-like population were IgM+/IgD+, and encoded by germline sequences. In contrast with blood B cells, the dominant liver CD27− B-cell population is comprised of a high frequency of class-switched clonal B cells, which strongly express MHC class II genes. Upon stimulation with CpG (a surrogate TI-antigen), PBC CD27− B-cell populations markedly expanded and were accompanied by a significantly reduced expression of MARCKS, a newly identified molecule that suppresses active BCR signaling, as compared to healthy controls. Our data indicate that PBC CD27− B-cells exhibit abnormalities and heterogeneity, which may arise from a consistent exposure to TI-antigens. Our findings underscore the significance of B cells in PBC and suggest that more efforts should be placed on PBC B cell immunobiology and as potential therapeutic targets.