不同的 p53 转录程序决定了急性 DNA 损伤反应和肿瘤抑制。

Distinct p53 transcriptional programs dictate acute DNA-damage responses and tumor suppression.

机构信息

Division of Radiation and Cancer Biology, Department of Radiation Oncology, Stanford University School of Medicine, Stanford, CA 94305, USA.

出版信息

Cell. 2011 May 13;145(4):571-83. doi: 10.1016/j.cell.2011.03.035.

DOI:10.1016/j.cell.2011.03.035

PMID:21565614

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3259909/

Abstract

The molecular basis for p53-mediated tumor suppression remains unclear. Here, to elucidate mechanisms of p53 tumor suppression, we use knockin mice expressing an allelic series of p53 transcriptional activation mutants. Microarray analysis reveals that one mutant, p53(25,26), is severely compromised for transactivation of most p53 target genes, and, moreover, p53(25,26) cannot induce G(1)-arrest or apoptosis in response to acute DNA damage. Surprisingly, p53(25,26) retains robust activity in senescence and tumor suppression, indicating that efficient transactivation of the majority of known p53 targets is dispensable for these pathways. In contrast, the transactivation-dead p53(25,26,53,54) mutant cannot induce senescence or inhibit tumorigenesis, like p53 nullizygosity. Thus, p53 transactivation is essential for tumor suppression but, intriguingly, in association with a small set of novel p53 target genes. Together, our studies distinguish the p53 transcriptional programs involved in acute DNA-damage responses and tumor suppression-a critical goal for designing therapeutics that block p53-dependent side effects of chemotherapy without compromising p53 tumor suppression.

摘要

p53 介导的肿瘤抑制的分子基础仍不清楚。在这里，为了阐明 p53 肿瘤抑制的机制，我们使用表达一系列 p53 转录激活突变体的敲入小鼠。微阵列分析显示，一种突变体 p53(25,26)，在激活大多数 p53 靶基因方面严重受损，而且，p53(25,26)不能在急性 DNA 损伤时诱导 G1 期阻滞或凋亡。令人惊讶的是，p53(25,26)在衰老和肿瘤抑制中仍保持强大的活性，表明大多数已知的 p53 靶基因的有效转录激活对于这些途径是可有可无的。相比之下，转录失活的 p53(25,26,53,54)突变体不能诱导衰老或抑制肿瘤发生，就像 p53 纯合缺失一样。因此，p53 转录激活对于肿瘤抑制是必需的，但有趣的是，它与一小部分新的 p53 靶基因有关。总之，我们的研究区分了涉及急性 DNA 损伤反应和肿瘤抑制的 p53 转录程序，这是设计阻断化疗中 p53 依赖性副作用而不损害 p53 肿瘤抑制的治疗方法的关键目标。

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