Davidson I, Fromental C, Augereau P, Wildeman A, Zenke M, Chambon P
Nature. 1986;323(6088):544-8. doi: 10.1038/323544a0.
Enhancers are cis-acting activators of transcription from homologous or heterologous promoter elements of viral and cellular genes (see refs 1-6 for reviews). The activity of the simian virus 40 (SV40) (refs 7-9) and immunoglobulin heavy-chain gene (IgH) (refs 10, 11) enhancers has been reproduced to some extent in vitro and appears to be mediated by trans-acting factors both in vitro and in vivo. The SV40 enhancer consists of multiple sequence motifs in two domains, A and B (Fig. 1, see ref. 14): domain B contains GT-I and -II and two TC motifs, of which only TC-II is important for enhancer activity in HeLa cells; and domain A contains the P and the two Sph motifs, the repetition of which generates the sequence 5'-ATGCAAAG-3', similar to the 'octameric' sequence of the IgH enhancer, (Fig. 4i; refs 14, 16), where it is important for enhancing activity. Each SV40 enhancer motif is a binding site for a protein or proteins present in HeLa cell nuclear extracts. Unlike the SV40 enhancer, which is active in HeLa and lymphoid B cells, the IgH enhancer is preferentially active in B cells, suggesting that not all the trans-acting factors necessary for its activity are present in HeLa cells. However, the IgH enhancer can compete with the SV40 enhancer in vitro in HeLa or lymphoid cell extracts and in vivo in B cells. Here we show that both human HeLa and BJA-B lymphoid B-cell nuclear extracts contain proteins that bind to specific, sometimes overlapping, motifs of the SV40 enhancer. Some binding is cell-specific, suggesting that it is not the same set of sequence motifs and proteins that is responsible for the enhancer activity in the two cell types. This is confirmed by our results obtained in vivo with mutated SV40 enhancers.
增强子是病毒和细胞基因同源或异源启动子元件转录的顺式作用激活因子(综述见参考文献1 - 6)。猴病毒40(SV40)(参考文献7 - 9)和免疫球蛋白重链基因(IgH)(参考文献10、11)增强子的活性已在一定程度上在体外重现,并且在体外和体内似乎都由反式作用因子介导。SV40增强子由A和B两个结构域中的多个序列基序组成(图1,见参考文献14):结构域B包含GT - I和 - II以及两个TC基序,其中只有TC - II对HeLa细胞中的增强子活性很重要;结构域A包含P和两个Sph基序,它们的重复产生序列5'-ATGCAAAG-3',类似于IgH增强子的“八聚体”序列(图4i;参考文献14、16),在增强活性方面很重要。每个SV40增强子基序都是HeLa细胞核提取物中一种或多种蛋白质的结合位点。与在HeLa细胞和B淋巴细胞中具有活性的SV40增强子不同,IgH增强子在B细胞中优先具有活性,这表明其活性所需的并非所有反式作用因子都存在于HeLa细胞中。然而,IgH增强子在体外HeLa或淋巴细胞提取物中以及在体内B细胞中都能与SV40增强子竞争。在这里我们表明,人HeLa和BJA - B淋巴细胞核提取物都含有与SV40增强子的特定、有时重叠的基序结合的蛋白质。一些结合具有细胞特异性,这表明负责两种细胞类型中增强子活性的序列基序和蛋白质并非同一组。我们用突变的SV40增强子在体内获得的结果证实了这一点。
