Yanai K, Nibu Y, Murakami K, Fukamizu A
Institute of Applied Biochemistry, Tsukuba Advanced Research Alliance (TARA), University of Tsukuba, Tsukuba, Ibaraki 305, Japan.
J Biol Chem. 1996 Jul 5;271(27):15981-6. doi: 10.1074/jbc.271.27.15981.
The promoter of the human angiotensinogen (hAG) gene functioned in its own core promoter context but not when replaced with simian virus 40 (SV40) core promoter, suggesting the presence of a transcriptionally important cis-acting sequence. Electrophoretic mobility shift assays demonstrated that a ubiquitously expressed nuclear factor, AGCF1, bound to AGCE1 (hAG core promoter element 1; positions -25 to -1) located between the TATA box and transcription initiation site. Substitution mutation in AGCE1 which disrupted AGCF1 binding affected the promoter activity more severely than a nonsense mutation of the hAG TATA sequences did. When AGCE1 was placed at the downstream of SV40 core promoter, the responsiveness to hAG upstream region was significantly restored. Furthermore, mutation and in vivo competition experiments suggested that AGCF1 acts as a critical regulator of hAG transcription by mediating the activity of the hAG upstream and downstream enhancer elements. DNase I footprinting and UV cross-linking analyses showed that AGCF1 with apparent molecular masses of 31, 33, and 43 kDa as the components protected the region from -26 to -9 which partially overlapped with the TATA box consensus sequences. These findings indicate that AGCE1 in addition to the TATA box plays a key role in mediating the hAG regulatory elements.
人血管紧张素原(hAG)基因的启动子在其自身核心启动子环境中发挥作用,但被猴病毒40(SV40)核心启动子取代时则不然,这表明存在一个对转录至关重要的顺式作用序列。电泳迁移率变动分析表明,一种普遍表达的核因子AGCF1与位于TATA盒和转录起始位点之间的AGCE1(hAG核心启动子元件1;位置-25至-1)结合。AGCE1中的取代突变破坏了AGCF1的结合,其对启动子活性的影响比hAG TATA序列的无义突变更为严重。当AGCE1置于SV40核心启动子下游时,对hAG上游区域的反应性显著恢复。此外,突变和体内竞争实验表明,AGCF1通过介导hAG上游和下游增强子元件的活性,作为hAG转录的关键调节因子发挥作用。DNA酶I足迹分析和紫外线交联分析表明,作为组分的表观分子量为31、33和43 kDa的AGCF1保护了从-26至-9的区域,该区域与TATA盒共有序列部分重叠。这些发现表明,除TATA盒外,AGCE1在介导hAG调节元件方面起关键作用。
