Katarina Ochodnicka-Mackovicova, Michal Mokry, Martin Haagmans, Ted E. Bradley, Carel J.M. van Noesel, Jeroen E.J. Guikema
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引用次数: 0
摘要
在发育中的 B 细胞中,V(D)J 基因重组由 RAG1/2 内切酶复合物启动,在 V、D 和 J 基因中引入双链 DNA 断裂(DSB),形成免疫球蛋白(Ig)的超变异部分。持续或异常的 RAG1/2 靶向是对基因组完整性的潜在威胁。虽然 RAG1 和 RAG2 已被证明能在全基因组范围内与不同区域结合,但 RAG1/2 内切酶引发的体内脱靶 DNA 损伤仍然不太清楚。在本研究中,我们采用全局 DNA DSB 检测策略,在全基因组范围内鉴定了小鼠前 B 细胞中含有 RAG1/2 诱导的 DNA 断裂的区域。我们检测到了 1489 个假定的 RAG1/2 依赖性 DSB,其中大部分位于 Ig 基因座之外。DNA序列基序分析表明,RAG1/2诱导的DNA DSB特异性地富集在GA和CA重复序列以及富含GC的基序上。这些发现进一步揭示了 RAG1/2 的脱靶活性。在内源性 V(D)J 重组过程中,RAG1/2 在非 Ig 基因座上引入 DSB 的能力强调了它在发育中淋巴细胞中的基因毒性潜力。
RAG1/2 induces double-stranded DNA breaks at non-Ig loci in the proximity of single sequence repeats in developing B cells
In developing B cells, V(D)J gene recombination is initiated by the RAG1/2 endonuclease complex, introducing double-stranded DNA breaks (DSBs) in V, D, and J genes and resulting in the formation of the hypervariable parts of immunoglobulins (Ig). Persistent or aberrant RAG1/2 targeting is a potential threat to genome integrity. While RAG1 and RAG2 have been shown to bind various regions genome-wide, the in vivo off-target DNA damage instigated by RAG1/2 endonuclease remains less well understood. In the current study, we identified regions containing RAG1/2-induced DNA breaks in mouse pre-B cells on a genome-wide scale using a global DNA DSB detection strategy. We detected 1489 putative RAG1/2-dependent DSBs, most of which were located outside the Ig loci. DNA sequence motif analysis showed a specific enrichment of RAG1/2-induced DNA DSBs at GA- and CA-repeats and GC-rich motifs. These findings provide further insights into RAG1/2 off-target activity. The ability of RAG1/2 to introduce DSBs on the non-Ig loci during the endogenous V(D)J recombination emphasizes its genotoxic potential in developing lymphocytes.
期刊介绍:
The European Journal of Immunology (EJI) is an official journal of EFIS. Established in 1971, EJI continues to serve the needs of the global immunology community covering basic, translational and clinical research, ranging from adaptive and innate immunity through to vaccines and immunotherapy, cancer, autoimmunity, allergy and more. Mechanistic insights and thought-provoking immunological findings are of interest, as are studies using the latest omics technologies. We offer fast track review for competitive situations, including recently scooped papers, format free submission, transparent and fair peer review and more as detailed in our policies.
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