The Czech Academy of Sciences, Institute of Biophysics, Královopolská, Brno, Czech Republic.
Department of Biochemistry, Faculty of Science, Masaryk University, Kotlarska, Brno, Czech Republic.
PLoS One. 2018 Apr 18;13(4):e0195835. doi: 10.1371/journal.pone.0195835. eCollection 2018.
p73 is a member of the p53 protein family and has essential functions in several signaling pathways involved in development, differentiation, DNA damage responses and cancer. As a transcription factor, p73 achieves these functions by binding to consensus DNA sequences and p73 shares at least partial target DNA binding sequence specificity with p53. Transcriptional activation by p73 has been demonstrated for more than fifty p53 targets in yeast and/or human cancer cell lines. It has also been shown previously that p53 binding to DNA is strongly dependent on DNA topology and the presence of inverted repeats that can form DNA cruciforms, but whether p73 transcriptional activity has similar dependence has not been investigated. Therefore, we evaluated p73 binding to a set of p53-response elements with identical theoretical binding affinity in their linear state, but different probabilities to form extra helical structures. We show by a yeast-based assay that transactivation in vivo correlated more with the relative propensity of a response element to form cruciforms than to its expected in vitro DNA binding affinity. Structural features of p73 target sites are therefore likely to be an important determinant of its transactivation function.
p73 是 p53 蛋白家族的一员,在涉及发育、分化、DNA 损伤反应和癌症的几个信号通路中具有重要功能。作为转录因子,p73 通过与共识 DNA 序列结合来实现这些功能,并且 p73 与 p53 至少具有部分靶 DNA 结合序列特异性。已经在酵母和/或人类癌细胞系中证明了 p73 对五十多个 p53 靶标的转录激活。先前也已经表明,p53 与 DNA 的结合强烈依赖于 DNA 拓扑结构和能够形成 DNA 十字形的反向重复,但是否 p73 的转录活性具有类似的依赖性尚未得到研究。因此,我们评估了一组 p53 反应元件在其线性状态下具有相同的理论结合亲和力,但形成额外螺旋结构的可能性不同的 p73 结合情况。我们通过基于酵母的测定表明,体内转录激活与反应元件形成十字形的相对倾向与其体外预期 DNA 结合亲和力更相关。因此,p73 靶位点的结构特征可能是其转录激活功能的重要决定因素。
