Hendrich B D, Plenge R M, Willard H F
Department of Genetics and Center for Human Genetics, Case Western Reserve University School of Medicine, Cleveland, OH 44106-4955, USA.
Nucleic Acids Res. 1997 Jul 1;25(13):2661-71. doi: 10.1093/nar/25.13.2661.
The XIST gene in both humans and mice is expressed exclusively from the inactive X chromosome and is required for X chromosome inactivation to occur early in development. In order to understand transcriptional regulation of the XIST gene, we have identified and characterized the human XIST promoter and two repeated DNA elements that modulate promoter activity. As determined by reporter gene constructs, the XIST minimal promoter is constitutively active at high levels in human male and female cell lines and in transgenic mice. We demonstrate that this promoter activity is dependent in vitro upon binding of the common transcription factors SP1, YY1 and TBP. We further identify two cis -acting repeated DNA sequences that influence reporter gene activity. First, DNA fragments containing a set of highly conserved repeats located within the 5'-end of XIST stimulate reporter activity 3-fold in transiently transfected cell lines. Second, a 450 bp alternating purine-pyrimidine repeat located 25 kb upstream of the XIST promoter partially suppresses promoter activity by approximately 70% in transient transfection assays. These results indicate that the XIST promoter is constitutively active and that critical steps in the X inactivation process must involve silencing of XIST on the active X chromosome by factors that interact with and/or recognize sequences located outside the minimal promoter.
人类和小鼠中的XIST基因仅从失活的X染色体表达,并且是发育早期X染色体失活所必需的。为了了解XIST基因的转录调控,我们鉴定并表征了人类XIST启动子以及两个调节启动子活性的重复DNA元件。通过报告基因构建体确定,XIST最小启动子在人类雄性和雌性细胞系以及转基因小鼠中持续高水平活跃。我们证明,这种启动子活性在体外依赖于常见转录因子SP1、YY1和TBP的结合。我们进一步鉴定了两个影响报告基因活性的顺式作用重复DNA序列。首先,包含位于XIST 5'端的一组高度保守重复序列的DNA片段在瞬时转染的细胞系中刺激报告基因活性3倍。其次,位于XIST启动子上游25 kb处的一个450 bp交替嘌呤-嘧啶重复序列在瞬时转染实验中部分抑制启动子活性约70%。这些结果表明,XIST启动子持续活跃,并且X失活过程中的关键步骤必须涉及通过与最小启动子外的序列相互作用和/或识别的因子使活跃X染色体上的XIST沉默。