Cook J L, Ré R N, Giardina J F, Fontenot F E, Cheng D Y, Alam J
Division of Research, Alton Ochsner Medical Foundation, New Orleans, Louisiana, USA 70121.
Oncogene. 1995 Aug 17;11(4):723-33.
We present evidence in favor of the position that some mutant p53 proteins retain the ability to trans-activate downstream genes through p53 DNA-binding consensus sequence (CS) homologies. We tested one cell line possessing high levels of mutant p53 and found that this mutant p53 is highly active in trans-activating one CS homology, moderately active in trans-activating a second sequence and inactive in modulating a third sequence. We tested a second cell line, also possessing high levels of mutant p53 and found the same pattern of activation. In addition we find that inter-motif distance [represented by N in RRRCWWGYYY(N)RRRCWWGYYY] is very important in determining the relative binding affinity of a given CS homology for wild-type or mutant p53. Our studies suggest that stereospecific alignment of the DNA-binding motifs within the CS may favor binding of wild-type p53 while misalignment may favor binding of mutant p53. Furthermore, we find that the maximum distances at which p53 DNA-binding CS homologies are functionally active vary for different sequences. Introduction of as few as 200 bp between one CS homology and the downstream TATA box can eliminate a 45-fold p53-mediated transactivation. We present evidence that the composition of the DNA which flanks a p53 DNA-binding consensus sequence may also modulate trans-activation.
我们提供的证据支持这样一种观点,即某些突变型p53蛋白通过p53 DNA结合共有序列(CS)同源性保留了反式激活下游基因的能力。我们检测了一个具有高水平突变型p53的细胞系,发现这种突变型p53在反式激活一种CS同源性方面高度活跃,在反式激活第二种序列方面中等活跃,而在调节第三种序列方面无活性。我们检测了另一个同样具有高水平突变型p53的细胞系,发现了相同的激活模式。此外,我们发现基序间距离[在RRRCWWGYYY(N)RRRCWWGYYY中由N表示]在确定给定CS同源性对野生型或突变型p53的相对结合亲和力方面非常重要。我们的研究表明,CS内DNA结合基序的立体特异性排列可能有利于野生型p53的结合,而排列错误可能有利于突变型p53的结合。此外,我们发现不同序列的p53 DNA结合CS同源性具有功能活性的最大距离各不相同。在一种CS同源性与下游TATA框之间引入少至200 bp就可以消除45倍的p53介导的反式激活。我们提供的证据表明,p53 DNA结合共有序列两侧的DNA组成也可能调节反式激活。
