The transcription factor E2A activates multiple enhancers that drive
            <i>Rag</i>
            expression in developing T and B cells

Miyazaki, Kazuko; Watanabe, Hidenobu; Yoshikawa, Genki; Chen, Kenian; Hidaka, Reiko; Aitani, Yuki; Osawa, Kai; Takeda, Ryoji; Ochi, Yotaro; Tani-ichi, Shizue; Uehata, Takuya; Takeuchi, Osamu; Ikuta, Koichi; Ogawa, Seishi; Kondoh, Gen; Lin, Yin; Ogata, Hiroyuki; Miyazaki, Masaki

doi:10.1126/sciimmunol.abb1455

Cited by 49 publications

(100 citation statements)

References 67 publications

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“…Consistent with this finding, the Rag gene locus and its enhancers show elaborate chromatin interactions and are located in the active developing T cell-and B cell-specific sub-TAD (52). Furthermore, R-TEn deletion in mice specifically blocked thymocyte development during the b-selection of DN3 cells and positive-selection of DP cells, as seen in ASE deletion mice (52,63). In addition, mice with R1B/R2B double deletions exhibited a severe developmental block at the pro-B stage, whereas the single deletion of either R1B or R2B led to mild or moderate impairments in B cell development.…”

Section: Rag1/2 Gene Enhancerssupporting

confidence: 68%

“…In addition, mice with R1B/R2B double deletions exhibited a severe developmental block at the pro-B stage, whereas the single deletion of either R1B or R2B led to mild or moderate impairments in B cell development. This outcome is comparable to that observed in Erag deficient mice, suggesting enhancer redundancy in R1B and R2B (7,52,58). These developmental defects in enhancer-deleted mouse lines were caused by failed Rag1/2 gene expression and TCRab or IgH recombination.…”

Section: Rag1/2 Gene Enhancerssupporting

confidence: 68%

“…In addition to E2A, T cell-or B cell-specific TFs (T cell: Bcl11b, Tcf1, Runx1, Ikaros, and Gata3; B cell: Pax5, Ets1, Ikaros, and Irf4) bind to these enhancer regions ( Figure 3A). Furthermore, the R2B and Rag1 gene promoter region (R1pro) in pre-B cells, and R-TEn along with the Rag1/2 gene cluster in DP cells are SEs according to an analysis of histone acetylation (H3K27Ac) (52). Consistent with this finding, the Rag gene locus and its enhancers show elaborate chromatin interactions and are located in the active developing T cell-and B cell-specific sub-TAD (52).…”

Section: Rag1/2 Gene Enhancersmentioning

confidence: 54%

“…Together, the ASE and Rag1 promoter framework functions as a chromatin hub (65). Recently, we have identified cell type-specific CREs for Rag1/2 expression in B and T cells using E2A ChIP-seq and ATAC-seq data, because E2A specifies adaptive lymphocyte and is the driver of differences in enhancer repertoires in T cells and ILCs (24,52). We mapped E2A binding to one T cell-specific Rag gene enhancer [Rag-T cell enhancer (R-TEn) included in the 8-kb ASE] and to two B cell-specific Rag gene enhancers [Rag B cell enhancer 1/2; R1B (5-kb upstream of the Rag1 promoter) and R2B (partially overlapping with Erag)] ( Figure 3A) (52).…”

Section: Rag1/2 Gene Enhancersmentioning

confidence: 99%

“…Furthermore, the R2B and Rag1 gene promoter region (R1pro) in pre-B cells, and R-TEn along with the Rag1/2 gene cluster in DP cells are SEs according to an analysis of histone acetylation (H3K27Ac) (52). Consistent with this finding, the Rag gene locus and its enhancers show elaborate chromatin interactions and are located in the active developing T cell-and B cell-specific sub-TAD (52). Furthermore, R-TEn deletion in mice specifically blocked thymocyte development during the b-selection of DN3 cells and positive-selection of DP cells, as seen in ASE deletion mice (52,63).…”

Section: Rag1/2 Gene Enhancersmentioning

confidence: 99%

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The Interplay Between Chromatin Architecture and Lineage-Specific Transcription Factors and the Regulation of Rag Gene Expression

Miyazaki

2021

Front. Immunol.

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Cell type-specific gene expression is driven through the interplay between lineage-specific transcription factors (TFs) and the chromatin architecture, such as topologically associating domains (TADs), and enhancer-promoter interactions. To elucidate the molecular mechanisms of the cell fate decisions and cell type-specific functions, it is important to understand the interplay between chromatin architectures and TFs. Among enhancers, super-enhancers (SEs) play key roles in establishing cell identity. Adaptive immunity depends on the RAG-mediated assembly of antigen recognition receptors. Hence, regulation of the Rag1 and Rag2 (Rag1/2) genes is a hallmark of adaptive lymphoid lineage commitment. Here, we review the current knowledge of 3D genome organization, SE formation, and Rag1/2 gene regulation during B cell and T cell differentiation.

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Section: Rag1/2 Gene Enhancerssupporting

confidence: 68%

Section: Rag1/2 Gene Enhancerssupporting

confidence: 68%

Section: Rag1/2 Gene Enhancersmentioning

confidence: 54%

Section: Rag1/2 Gene Enhancersmentioning

confidence: 99%

Section: Rag1/2 Gene Enhancersmentioning

confidence: 99%

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The Interplay Between Chromatin Architecture and Lineage-Specific Transcription Factors and the Regulation of Rag Gene Expression

Miyazaki

2021

Front. Immunol.

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Direct regulation of TCR rearrangement and expression by E proteins during early T cell development

Anderson

Rocha

2022

WIREs Mechanisms of Disease

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γδ T cells are widely distributed throughout mucosal and epithelial cell‐rich tissues and are an important early source of IL‐17 in response to several pathogens. Like αβ T cells, γδ T cells undergo a stepwise process of development in the thymus that requires recombination of genome‐encoded segments to assemble mature T cell receptor (TCR) genes. This process is tightly controlled on multiple levels to enable TCR segment assembly while preventing the genomic instability inherent in the double‐stranded DNA breaks that occur during this process. Each TCR locus has unique aspects in its structure and requirements, with different types of regulation before and after the αβ/γδ T cell fate choice. It has been known that Runx and Myb are critical transcriptional regulators of TCRγ and TCRδ expression, but the roles of E proteins in TCRγ and TCRδ regulation have been less well explored. Multiple lines of evidence show that E proteins are involved in TCR expression at many different levels, including the regulation of Rag recombinase gene expression and protein stability, induction of germline V segment expression, chromatin remodeling, and restriction of the fetal and adult γδTCR repertoires. Importantly, E proteins interact directly with the cis‐regulatory elements of the TCRγ and TCRδ loci, controlling the predisposition of a cell to become an αβ T cell or a γδ T cell, even before the lineage‐dictating TCR signaling events. This article is categorized under: Immune System Diseases > Stem Cells and Development Immune System Diseases > Genetics/Genomics/Epigenetics

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The Function of E2A in B-Cell Development

Miyazaki,

Miyazaki

2024

Transcription Factors in Blood Cell Development

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The transcription factor E2A activates multiple enhancers that drive Rag expression in developing T and B cells

Cited by 49 publications

References 67 publications

The Interplay Between Chromatin Architecture and Lineage-Specific Transcription Factors and the Regulation of Rag Gene Expression

The Interplay Between Chromatin Architecture and Lineage-Specific Transcription Factors and the Regulation of Rag Gene Expression

Direct regulation of TCR rearrangement and expression by E proteins during early T cell development

The Function of E2A in B-Cell Development

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