Ohlsson M, Leonardsson G, Jia X C, Feng P, Ny T
Department of Applied Cell and Molecular Biology, University of Umeå, Sweden.
Mol Cell Biol. 1993 Jan;13(1):266-75. doi: 10.1128/mcb.13.1.266-275.1993.
We have characterized tissue type plasminogen activator (tPA) promoter elements and nuclear factors required for follicle-stimulating hormone (FSH)-induced transcription of the rat tPA gene in granulosa cells and constitutive expression of the gene in the rat neuroblastoma cell line B103. Run-on transcription analysis of isolated nuclei revealed that B103 cells transcribe the tPA gene at a high and constitutive level, while FSH was found to induce tPA gene transcription in a rapid and transient manner in granulosa cells. The maximal FSH-induced transcription rate was obtained after 20 min and was similar in the absence or presence of the protein synthesis inhibitor cycloheximide. However, in the presence of cycloheximide, tPA transcription was not turned off but continued at a high rate for several hours. This phenomenon may at least partly explain the earlier finding that tPA mRNA is superinduced by FSH in the presence of cycloheximide. DNase I footprinting analysis of the first 621 bp of the tPA promoter revealed a total of six regions that interact with nuclear factors from B103 and granulosa cells. Deletion of the promoter region from positions -269 to -621, a region that includes the two most-upstream footprints, had no effect on constitutive or FSH-induced transcription in transient expression experiments. Nuclear extracts from both granulosa cells and B103 cells showed strong binding to a consensus cyclic AMP-responsive element (CRE) at positions -178 to -185 and a neighboring binding site for nuclear factor 1 (NF1) at positions -145 to -158. The factors binding to these two regions were identified as members of the CRE-binding protein and NF1 families of transcription factors, respectively. Footprints were also obtained over two GC boxes at positions -64 to -71 and -41 to -49. These footprints were more pronounced with nuclear extracts from B103 cells than with extracts from untreated or FSH-treated granulosa cells, but gel shift assays indicate that similar amounts of two distinct factors bind to the two GC boxes in both cell types. Transfection experiments using promoter constructs with inactivated promoter elements indicate that both the CRE and NF1 sites contribute to the FSH responsiveness of the rat tPA gene in granulosa cells, while only the NF1 site is important for constitutive expression in B103 cells. The two GC boxes were found to be necessary both for constitutive expression in B103 cells and for FSH-induced expression in granulosa cells, and inactivation of both GC boxes essentially eliminated the tPA promoter activity in both cell types.
我们已经鉴定了组织型纤溶酶原激活剂(tPA)启动子元件以及颗粒细胞中促卵泡激素(FSH)诱导大鼠tPA基因转录和大鼠神经母细胞瘤细胞系B103中该基因组成型表达所需的核因子。对分离细胞核的连续转录分析表明,B103细胞以高水平组成型转录tPA基因,而FSH在颗粒细胞中以快速且短暂的方式诱导tPA基因转录。20分钟后获得最大的FSH诱导转录速率,且在存在或不存在蛋白质合成抑制剂环己酰亚胺的情况下相似。然而,在存在环己酰亚胺的情况下,tPA转录并未关闭,而是以高速率持续数小时。这种现象可能至少部分解释了早期的发现,即tPA mRNA在环己酰亚胺存在下被FSH超诱导。对tPA启动子前621 bp进行的DNase I足迹分析揭示了总共六个与来自B103和颗粒细胞的核因子相互作用的区域。在瞬时表达实验中,缺失从-269至-621位的启动子区域(该区域包括两个最上游的足迹)对组成型或FSH诱导的转录没有影响。颗粒细胞和B103细胞的核提取物均显示与位于-178至-185位的共有环磷酸腺苷反应元件(CRE)以及位于-145至-158位的核因子1(NF1)相邻结合位点有强结合。与这两个区域结合的因子分别被鉴定为CRE结合蛋白和NF1转录因子家族的成员。在位于-64至-71位和-41至-49位的两个GC盒上也获得了足迹。这些足迹在B103细胞核提取物中比在未处理或FSH处理的颗粒细胞核提取物中更明显,但凝胶迁移分析表明,两种细胞类型中相似量的两种不同因子与两个GC盒结合。使用具有失活启动子元件的启动子构建体进行的转染实验表明,CRE和NF1位点均对颗粒细胞中大鼠tPA基因的FSH反应性有贡献,而只有NF1位点对B103细胞中的组成型表达很重要。发现两个GC盒对于B103细胞中的组成型表达以及颗粒细胞中FSH诱导的表达都是必需的,并且两个GC盒的失活基本上消除了两种细胞类型中的tPA启动子活性。
