Laboratory of Molecular Biology and Immunology, National Institute on Aging, National Institutes of Health, Baltimore, Maryland, United States of America.
PLoS Biol. 2013;11(1):e1001475. doi: 10.1371/journal.pbio.1001475. Epub 2013 Jan 29.
Multiple epigenetic marks have been proposed to contribute to the regulation of antigen receptor gene assembly via V(D)J recombination. Here we provide a comprehensive view of DNA methylation at the immunoglobulin heavy chain (IgH) gene locus prior to and during V(D)J recombination. DNA methylation did not correlate with the histone modification state on unrearranged alleles, indicating that these epigenetic marks were regulated independently. Instead, pockets of tissue-specific demethylation were restricted to DNase I hypersensitive sites within this locus. Though unrearranged diversity (D(H)) and joining (J(H)) gene segments were methylated, DJ(H) junctions created after the first recombination step were largely demethylated in pro-, pre-, and mature B cells. Junctional demethylation was highly localized, B-lineage-specific, and required an intact tissue-specific enhancer, Eμ. We propose that demethylation occurs after the first recombination step and may mark the junction for secondary recombination.
多种表观遗传标记被提出通过 V(D)J 重组来调节抗原受体基因的组装。在这里,我们提供了在 V(D)J 重组之前和期间免疫球蛋白重链 (IgH) 基因座上的 DNA 甲基化的全面视图。DNA 甲基化与未重排等位基因上的组蛋白修饰状态没有相关性,表明这些表观遗传标记是独立调控的。相反,组织特异性去甲基化的小块仅限于该基因座内的 DNase I 超敏位点。虽然未重排的多样性 (D(H)) 和连接 (J(H)) 基因片段被甲基化,但在第一个重组步骤之后创建的 DJ(H) 接头在原代、前体和成熟 B 细胞中大部分被去甲基化。连接点去甲基化具有高度的局部性、B 细胞谱系特异性,并且需要一个完整的组织特异性增强子 Eμ。我们提出,去甲基化发生在第一次重组步骤之后,可能标志着二次重组的连接点。
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