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早期B细胞因子、E2A和Pax-5协同激活早期B细胞特异性mb-1启动子。

Early B-cell factor, E2A, and Pax-5 cooperate to activate the early B cell-specific mb-1 promoter.

作者信息

Sigvardsson Mikael, Clark Dawn R, Fitzsimmons Daniel, Doyle Michelle, Akerblad Peter, Breslin Thomas, Bilke Sven, Li Ronggui, Yeamans Carmen, Zhang Gongyi, Hagman James

机构信息

Department for Stem Cell Biology, Lund, Sweden.

出版信息

Mol Cell Biol. 2002 Dec;22(24):8539-51. doi: 10.1128/MCB.22.24.8539-8551.2002.

DOI:10.1128/MCB.22.24.8539-8551.2002
PMID:12446773
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC139876/
Abstract

Previous studies have suggested that the early-B-cell-specific mb-1(Igalpha) promoter is regulated by EBF and Pax-5. Here, we used in vivo footprinting assays to detect occupation of binding sites in endogenous mb-1 promoters at various stages of B-cell differentiation. In addition to EBF and Pax-5 binding sites, we detected occupancy of a consensus binding site for E2A proteins (E box) in pre-B cells. EBF and E box sites are crucial for promoter function in transfected pre-B cells, and EBF and E2A proteins synergistically activated the promoter in transfected HeLa cells. Other data suggest that EBF and E box sites are less important for promoter function at later stages of differentiation, whereas binding sites for Pax-5 (and its Ets ternary complex partners) are required for promoter function in all mb-1-expressing cells. Using DNA microarrays, we found that expression of endogenous mb-1 transcripts correlates most closely with EBF expression and negatively with Id1, an inhibitor of E2A protein function, further linking regulation of the mb-1 gene with EBF and E2A. Together, our studies demonstrate the complexity of factors regulating tissue-specific transcription and support the concept that EBF, E2A, and Pax-5 cooperate to activate target genes in early B-cell development.

摘要

以往的研究表明,早期B细胞特异性mb-1(Igalpha)启动子受EBF和Pax-5调控。在此,我们采用体内足迹分析来检测B细胞分化不同阶段内源性mb-1启动子中结合位点的占据情况。除了EBF和Pax-5结合位点外,我们在pre-B细胞中检测到E2A蛋白共有结合位点(E盒)的占据。EBF和E盒位点对转染的pre-B细胞中的启动子功能至关重要,并且EBF和E2A蛋白在转染的HeLa细胞中协同激活启动子。其他数据表明,EBF和E盒位点在分化后期对启动子功能的重要性较低,而Pax-5(及其Ets三元复合物伙伴)的结合位点在所有表达mb-1的细胞中对启动子功能是必需的。使用DNA微阵列,我们发现内源性mb-1转录本的表达与EBF表达最密切相关,与E2A蛋白功能抑制剂Id1呈负相关,进一步将mb-1基因的调控与EBF和E2A联系起来。总之,我们的研究证明了调节组织特异性转录的因子的复杂性,并支持EBF、E2A和Pax-5在早期B细胞发育中协同激活靶基因的概念。

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