Abstract

Emerging evidence underscores the importance of e pigenetic modifications in controlling B-cell development and function. While Jmjd1c, a member of the l ysine - specific histone demethylase 3 subfamily, is known to regulate the self-renewal of normal hematopoietic stem cells and leukemia stem cells, its impact on B cell biology is unknown. To explore Jmjd1c's role in B cells, we developed B-cell-specific Jmjd1c-deficient mice through crossbreeding Jmjd1c “floxed” mice with B cell-specific Mb1-Cre mice. The absence of Jmjd1c did not impact B-cell development, but it did lead to significant alterations in basal B cell antibody production. Specifically, we observed skewed isotypes from IgG2c and IgG3 to IgG1 and IgG2b. Additionally, Jmjd1c deficiency affected antigen-specific immune responses upon T-dependent and T-independent antigen challenges, implying a crucial role of Jmjd1c in B cell function. Furthermore, auto-antibody array assays revealed increased self-reactive antibody production in Jmjd1c-deficient animals, indicating the role of Jmjd1c in regulating self-reactive B cells. At a cellular level, Jmjd1c-deficient B cells showed elevated expression of CD86, a canonical marker of B cell activation. Moreover, these B cells exhibited increased BCR-induced cell proliferation, suggesting hyperactivity to antigens, including self-antigens. Notably, Jmjd1c deficiency induced systemic autoimmune disorder in a BM12-induced systemic lupus erythematosus (SLE) animal model, resulting in amplified auto-antibody production and CD86 expression. To investigate the underlying molecular mechanisms, RNA sequencing analysis demonstrated upregulation of B cell receptor signaling related genes, NF-κB pathway signature genes, and cell cycle-related genes in Jmjd1c-deficient B cells upon anti-IgM stimulation, consistent with their hyperresponsiveness. Of particular interest, we observed upregulation of genes encoding the 26S proteasome complex, a pivotal regulator of diverse cellular processes including NF-κB pathway activation and self-antigen presentation. To explore the epigenetic aspect of these genes, we employed CUT&Tag sequencing and found that Jmjd1c deficiency correlated with increased levels of H3K36me1, a marker of active chromatin and gene transcription. Moreover, the H3K36me1 levels of B cell receptor signaling related genes, NF-κB pathway signature genes, and cell cycle-related genes were significantly augmented in Jmjd1c-deficient B cells upon anti-IgM stimulation. Notably, 26S proteasome subunit genes that were upregulated in Jmjd1c-deficient B cells exhibited higher H3K36me1 modification at the promoter regions. Collectively, our study provides valuable insights into the epigenetic control of B cell autoimmunity through the regulation of H3K36 mono-methylation by Jmjd1c. This mechanism plays a critical role in B cell activation and function, including the regulation of key genes such as those encoding the 26S proteasome complex.

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