Jackson Mark W, Agarwal Mukesh K, Agarwal Munna L, Agarwal Archana, Stanhope-Baker Patricia, Williams Bryan R G, Stark George R
Department of Molecular Biology, Lerner Research Institute, Cleveland Clinic Foundation, Cleveland, OH 44195, USA.
Oncogene. 2004 May 27;23(25):4477-87. doi: 10.1038/sj.onc.1207575.
The p53 tumor suppressor is phosphorylated in response to various cellular stress signals, such as DNA damage, leading to its release from MDM2 and consequent stabilization and activation as a transcription factor. In human U2OS cells, treatment with adriamycin causes p53 to be phosphorylated on all six serine residues tested, leading to the dissociation of p53 from MDM2 and transcription of the p21 and mdm2 genes. In contrast, in these cells, IPTG-dependent induction of p14ARF, which sequesters MDM2 away from p53, does not lead to detectable phosphorylation of any of the five N-terminal serine residues tested (6, 9, 15, 20, 37). Only C-terminal serine 392 is phosphorylated. However, the increase of p21 and mdm2 mRNAs was indistinguishable following treatment with adriamycin or induction of p14ARF. By using cDNA arrays to examine global p53-dependent gene expression in response to adriamycin or p14ARF, we found that most genes were regulated similarly by the two treatments. However, a subset of p53-regulated genes whose products have proliferative roles or regulate VEGF activity, newly described here, are repressed by p14ARF much more than by adriamycin. We conclude that the phosphorylation of p53 on N-terminal serine residues is not required for increased transcription of the great majority of p53-responsive genes and that the induction of p53 by p14ARF, with little phosphorylation, leads to substantial repression of genes whose products have roles in proliferation.
p53肿瘤抑制蛋白会响应各种细胞应激信号(如DNA损伤)而发生磷酸化,从而导致其从MDM2中释放出来,并随之稳定化并作为转录因子被激活。在人U2OS细胞中,用阿霉素处理会使p53在所测试的所有六个丝氨酸残基上发生磷酸化,导致p53与MDM2解离,并诱导p21和mdm2基因转录。相比之下,在这些细胞中,IPTG依赖性诱导p14ARF(其将MDM2从p53上隔离)不会导致所测试的五个N端丝氨酸残基(6、9、15、20、37)中的任何一个发生可检测到的磷酸化。只有C端丝氨酸392发生了磷酸化。然而,在用阿霉素处理或诱导p14ARF后,p21和mdm2 mRNA的增加没有明显差异。通过使用cDNA阵列来检测响应阿霉素或p14ARF的全局p53依赖性基因表达,我们发现大多数基因在这两种处理下的调控方式相似。然而,一组新描述的p53调控基因,其产物具有增殖作用或调节VEGF活性,被p14ARF抑制的程度远大于被阿霉素抑制的程度。我们得出结论,p53 N端丝氨酸残基的磷酸化对于绝大多数p53反应性基因的转录增加并非必需,并且p14ARF诱导的p53几乎没有磷酸化,但会导致其产物在增殖中起作用的基因受到显著抑制。
