Nikolajczyk B S, Nelsen B, Sen R
Rosenstiel Basic Medical Sciences Research Center, Department of Biology, Brandeis University, Waltham, Massachusetts 02254-9110, USA.
Mol Cell Biol. 1996 Aug;16(8):4544-54. doi: 10.1128/MCB.16.8.4544.
The lymphocyte-specific immunoglobulin mu heavy-chain gene intronic enhancer is regulated by multiple nuclear factors. The previously defined minimal enhancer containing the muA, muE3, and muB sites is transactivated by a combination of the ETS-domain proteins PU.1 and Ets-1 in nonlymphoid cells. The core GGAAs of the muA and muB sites are separated by 30 nucleotides, suggesting that ETS proteins bind to these sites from these same side of the DNA helix. We tested the necessity for appropriate spatial alignment of these elements by using mutated enhancers with altered spacings. A 4- or 10-bp insertion between muE3 and muB inactivated the mu enhancer in S194 plasma cells but did not affect in vitro binding of Ets-1, PU.1, or the muE3-binding protein TFE3, alone or in pairwise combinations. Circular permutation and phasing analyses demonstrated that PU.1 binding but not TFE3 or Ets-1 bends mu enhancer DNA toward the major groove. We propose that the requirement for precise spacing of the muA and muB elements is due in part to a directed DNA bend induced by PU.1.
淋巴细胞特异性免疫球蛋白μ重链基因内含子增强子受多种核因子调控。先前定义的包含μA、μE3和μB位点的最小增强子,在非淋巴细胞中可被ETS结构域蛋白PU.1和Ets-1共同反式激活。μA和μB位点的核心GGAA序列被30个核苷酸隔开,这表明ETS蛋白从DNA螺旋的同一侧与这些位点结合。我们通过使用间距改变的突变增强子,测试了这些元件适当空间排列的必要性。在S194浆细胞中,μE3和μB之间插入4个或10个碱基对会使μ增强子失活,但不影响Ets-1、PU.1或μE3结合蛋白TFE3单独或成对组合时的体外结合。环形排列和定相分析表明,PU.1结合而非TFE3或Ets-1会使μ增强子DNA向大沟弯曲。我们提出,μA和μB元件精确间距的要求部分归因于PU.1诱导的定向DNA弯曲。
