Bach2 deficiency leads autoreactive B cells to produce IgG autoantibodies and induce lupus through a T cell-dependent extrafollicular pathway.

Eunkyeong Jang, Un Kyo Kim, Kiseok Jang, Young Soo Song, Ji-Young Cha, Hansol Yi, Jeehee Youn

Experimental & molecular medicine 2019 Dec 09

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Class-switched IgG autoantibodies but not unswitched IgM autoantibodies play a crucial role in the development of systemic lupus erythematosus (SLE). Bach2 is known to be essential for class switch recombination of Ig genes, but recent genomic and clinical studies have suggested an association of Bach2 deficiency with SLE. This study was undertaken to examine the mechanism by which Bach2 regulates the development of SLE. Despite defects in Ig class switch recombination and germinal center formation when actively immunized, Bach2-/- mice spontaneously accumulated IgG autoantibody-secreting cells without germinal center reactions in a regulatory T cell-independent manner, and this phenomenon was accompanied by manifestations akin to SLE. Transcriptome analyses revealed that Bach2 regulated the expression of genes related to germinal center formation and SLE pathogenesis in B cells. B cell-specific deletion of Bach2 was sufficient to impair the development of germinal center B cells but insufficient to promote the production of IgG autoantibodies. Bach2 deficiency caused CD4+ T cells to overexpress Icos and differentiate into extrafollicular helper T cells in a cell-autonomous manner. These findings suggest that Bach2-deficient autoreactive B cells preferentially react at extrafollicular sites to give rise to IgG class-switched pathogenic plasma cells and that this effect requires the help of Bach2-Icoshi helper T cells. Thus, the cell-autonomous roles of Bach2 in B cells and in their cognate CD4+ T cells are required to maintain self-tolerance against SLE.

Citation

Eunkyeong Jang, Un Kyo Kim, Kiseok Jang, Young Soo Song, Ji-Young Cha, Hansol Yi, Jeehee Youn. Bach2 deficiency leads autoreactive B cells to produce IgG autoantibodies and induce lupus through a T cell-dependent extrafollicular pathway. Experimental & molecular medicine. 2019 Dec 09;51(12):1-13