Bank1 modulates the differentiation and molecular profile of key B cell populations in autoimmunity
Gonzalo Gómez Hernández, Toro Domínguez, Georgina Galicia, María Morell, Marta E. Alarcón-Riquelme
Gonzalo Gómez Hernández, Toro Domínguez, Georgina Galicia, María Morell, Marta E. Alarcón-Riquelme
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Research Article Genetics

Bank1 modulates the differentiation and molecular profile of key B cell populations in autoimmunity

Abstract

This study aimed at defining the role of the B cell adaptor protein BANK1 in the appearance of age-associated B cells (ABCs) in 2 SLE mouse models (TLR7.tg6 and imiquimod-induced mice), crossed with Bank1–/– mice. The absence of Bank1 led to a significant reduction in ABC levels, also affecting other B cell populations. To gain deeper insights into their differentiation pathway and the effect of Bank1 on B cell populations, a single-cell transcriptome assay was performed. In the TLR7.tg6 model, we identified 10 clusters within B cells, including an ABC-specific cluster that was decreased in Bank1-deficient mice. In its absence, ABCs exhibited an antiinflammatory gene expression profile, while being proinflammatory in Bank1-sufficient lupus-prone mice. Trajectory analyses revealed that ABCs originated from marginal zone and memory-like B cells, ultimately acquiring transcriptional characteristics associated with atypical memory cells and long-lived plasma cells. Also, Bank1 deficiency normalized the presence of naive B cells, which were nearly absent in lupus-prone mice. Interestingly, Bank1 deficiency significantly reduced a distinct cluster containing IFN-responsive genes. These findings underscore the critical role of Bank1 in ABC development, affecting early B cell stages toward ABC differentiation, and the presence of IFN-stimulated gene–containing B cells, both populations determinant for autoimmunity.

Authors

Gonzalo Gómez Hernández, Toro Domínguez, Georgina Galicia, María Morell, Marta E. Alarcón-Riquelme

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Figure 2

Bank1 deficiency reduces splenomegaly and restores main splenic B lymphocyte populations from TLR7.tg6 and IMQ-treated mice.

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Bank1 deficiency reduces splenomegaly and restores main splenic B lymph...
(A) Representative image of the size of the spleen from the TLR7.tg6 model, by 32 weeks of ages (on the left). The spleen weight from each group (on the right). Total mice analyzed: WT (n = 15), T7 (n = 20), T7.B1–/– (n = 13). (B) Representative image of the size of the spleen from the IMQ-induced model, by 20 weeks of age (on the left). The spleen weight from each group (on the right). Total mice analyzed: WT (n = 18), WT + IMQ (n = 18), B1–/– (n = 22), B1/– + IMQ (n = 19). (C and D) Frequency of MZ B cells as CD21+CD23 and FO B cells as CD21 CD23+ among CD19+ B cells from the spleens of TLR7.tg6 and IMQ-induced models. Total mice analyzed: WT (n = 18), T7 (n = 14), T7.B1–/– (n = 23); and WT (n = 20), WT + IMQ (n = 24), B1/– (n = 18), B1/– + IMQ (n = 25). (E) Frequency of PCs as CD138+ from the spleens of TLR7.tg6 and IMQ-induced models. Total mice analyzed: WT (n = 12), T7 (n = 17), T7.B1–/– (n = 7); and WT (n = 7), WT + IMQ (n = 8), B1–/– (n = 9), B1–/– + IMQ (n = 9). Each point represents 1 individual mouse. Data are shown as mean ± SEM. Mann-Whitney U test with Welch’s correction was used to test statistical significance.