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Gfi1b 通过直接抑制 Rag 表达和 FoxO1 的抑制来负调控 Rag 表达。

Gfi1b negatively regulates Rag expression directly and via the repression of FoxO1.

机构信息

Department of Molecular and Cell Biology, University of California, Berkeley, Berkeley, CA 94720, USA.

出版信息

J Exp Med. 2012 Jan 16;209(1):187-99. doi: 10.1084/jem.20110645. Epub 2011 Dec 26.

DOI:10.1084/jem.20110645
PMID:22201127
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3260878/
Abstract

Precise regulation of Rag (recombination-activating gene) expression is crucial to prevent genomic instability caused by the generation of Rag-mediated DNA breaks. Although mechanisms of Rag activation have been well characterized, the mechanism by which Rag expression is down-regulated in early B cell development has not been fully elucidated. Using a complementary DNA library screen, we identified the transcriptional repressor Gfi1b as negative regulator of the Rag locus. Expression of Gfi1b causes repression of Rag1 and Rag2 in cell lines and primary mouse cells. Conversely, Gfi1b-deficient cell lines exhibit increased Rag expression, double-strand breaks and recombination, and cell cycle defects. In primary cells, transcription of Gfi1b inversely correlates with Rag transcription, and simultaneous inactivation of Gfi1 and Gfi1b leads to an increase in Rag transcription early in B cell development. In addition, deletion of Gfi1 and Gfi1b in vivo results in a severe block in B cell development. Gfi1b orchestrates Rag repression via a dual mechanism. Direct binding of Gfi1b to a site 5' of the B cell-specific Erag enhancer results in epigenetic changes in the Rag locus, whereas indirect inhibition is achieved through repression of the trans-activator Foxo1. Together, our experiments show that Gfi family members are essential for normal B cell development and play an important role in modulating expression of the V(D)J recombinase.

摘要

精确调节 Rag(重组激活基因)的表达对于防止 Rag 介导的 DNA 断裂引起的基因组不稳定性至关重要。尽管 Rag 激活的机制已经得到很好的描述,但 Rag 在早期 B 细胞发育中表达下调的机制尚未完全阐明。我们使用 cDNA 文库筛选,鉴定了转录抑制因子 Gfi1b 是 Rag 基因座的负调控因子。Gfi1b 的表达导致细胞系和原代小鼠细胞中 Rag1 和 Rag2 的表达受到抑制。相反,Gfi1b 缺陷细胞系表现出 Rag 表达、双链断裂和重组增加,以及细胞周期缺陷。在原代细胞中,Gfi1b 的转录与 Rag 的转录呈负相关,并且 Gfi1 和 Gfi1b 的同时失活导致 B 细胞发育早期 Rag 转录增加。此外,体内缺失 Gfi1 和 Gfi1b 会导致 B 细胞发育严重受阻。Gfi1b 通过双重机制来协调 Rag 的抑制。Gfi1b 直接结合到 B 细胞特异性 Erag 增强子的 5' 位点,导致 Rag 基因座的表观遗传变化,而间接抑制则通过抑制转录激活因子 Foxo1 来实现。总之,我们的实验表明,Gfi 家族成员对于正常的 B 细胞发育是必不可少的,并且在调节 V(D)J 重组酶的表达方面发挥着重要作用。

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