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B-2 cells are a subtype of B cell. They form part of the adaptive immune response and mediate humoral immunity. B 2 cells can produce high-affinity antibodies and generate immunological memory. B-2 cells are often used synonymously with classical B cells.
IgD is expressed, predominantly together with IgM, via mRNA alternative splicing, but IgD class switch recombination (IgD CSR) has also been reported. Here the authors show, using Rad52-deficient mouse and human B cells, that IgD CSR is mediated by Rad52 through an alternative, microhomology-based end-joining pathway of DNA repair.
Human memory B cells differentiate from naïve B cells and can express different immunoglobulin (Ig) isotypes resulted from class-switch recombination. Here the authors describe, using transcriptional and epigenetic data from human memory B cells and integrated multi-omics analyses, the differentiation regulation and trajectory of IgG+, IgA+ and IgD+ memory B cells.
Protective antibody responses depend critically on proper B cell development and differentiation at multiple stages. Here the authors show that a protein arginine methyltransferase, Prmt5 uses multiples pathways to prevent death of immature B cells, yet modulates, in p53-independent manners, the survival and differentiation of mature B cells.
Memory B cells need to be reactivated to produce high affinity antibody responses on subsequent antigen encounters. Here the authors show that memory B cells localise to lymph node subcapsular proliferative foci (SPF), which have distinct properties from the germinal centre, for rapid expansion and the induction of B memory responses.
Testosterone deficiency is associated with autoimmunity and increased B cell numbers, but the underlying mechanism is unclear. Here the authors show that testosterone may modulate the production of B cell survival factor BAFF by fibroblastic reticular cells via regulation of splenic neurotransmitter levels.
IL-7R activation drives early B cell development, but the signalling is unclear. Here the authors show PLCγ is involved in IL-7R-induced mTOR activation via a DAG/PKC-dependent pathway, and that double deficiency of the two PLCγ isoforms arrests B cell development at the pre-pro-B stage in mice.
Membrane immunoglobulin E (IgE) on germinal-center-like B cells, without engagement of IgE, uses the CD19-PI3K-Akt-IRF4 axis and the BLNK-Jnk-p38 axis, with the former used for plasma-cell differentiation and the latter used for apoptotic death.