Polo Jose M, Ci Weimin, Licht Jonathan D, Melnick Ari
Department of Developmental and Molecular Biology, Albert Einstein College of Medicine, Bronx, NY, USA.
Blood. 2008 Aug 1;112(3):644-51. doi: 10.1182/blood-2008-01-131813. Epub 2008 May 16.
Germinal center (GC) B cells undergo somatic hypermutation, class switch recombination, and rapid clonal expansion to produce high-affinity antibodies. The BCL6 transcriptional repressor facilitates this phenotype because it can repress DNA damage checkpoint genes. GC B and T cells can make transient direct physical contact; T cells were observed to be associated with dead B-cell fragments. We thus hypothesized that one function of CD40 signaling from T cells within this timeframe could be to modulate BCL6 activity. CD40 signaling rapidly disrupts the ability of BCL6 to recruit the SMRT corepressor complex by excluding it from the nucleus, leading to histone acetylation, RNA polymerase II processivity, and activation of BCL6 target genes, such as CD23b, ATR, and TP53. Washout of CD40 to emulate transient T-cell contact permitted BCL6 target gene mRNA levels to return to their repressed levels, demonstrating that this is a reversible process, which could allow centroblasts that pass quality control to either continue proliferation or undergo terminal differentiation. These data suggest that transient CD40 signaling in the GC might allow T cells to weed out heavily damaged centroblasts while at the same time promoting survival of intact B cells, which could undergo differentiation or additional rounds of proliferation.
生发中心(GC)B细胞经历体细胞超突变、类别转换重排和快速克隆扩增以产生高亲和力抗体。BCL6转录抑制因子促进了这种表型,因为它可以抑制DNA损伤检查点基因。GC B细胞和T细胞可以进行短暂的直接物理接触;观察到T细胞与死亡的B细胞片段有关。因此,我们推测在此时间范围内来自T细胞的CD40信号传导的一个功能可能是调节BCL6活性。CD40信号传导通过将SMRT共抑制复合物排除在细胞核外,迅速破坏BCL6招募该复合物的能力,导致组蛋白乙酰化、RNA聚合酶II的持续合成能力以及BCL6靶基因(如CD23b、ATR和TP53)的激活。洗脱CD40以模拟短暂的T细胞接触,使BCL6靶基因的mRNA水平恢复到其被抑制的水平,表明这是一个可逆过程,这可能允许通过质量控制的中心母细胞继续增殖或进行终末分化。这些数据表明,GC中短暂的CD40信号传导可能使T细胞清除严重受损的中心母细胞,同时促进完整B细胞的存活,这些B细胞可以进行分化或额外的增殖轮次。