Research Centre for Hepatology, Buddhist Tzu Chi General Hospital and Tzu Chi University, Hualien, Taiwan.
FEBS J. 2010 Mar;277(5):1202-18. doi: 10.1111/j.1742-4658.2009.07553.x. Epub 2010 Feb 1.
Snail is a multifunctional transcriptional factor that has been described as a repressor in many different contexts. It is also proposed as an activator in a few cases relevant to tumor progression and cell-cycle arrest. This study investigated the detailed mechanisms by which Snail upregulates gene expression of the CDK inhibitor p15(INK4b) in HepG2 induced by the tumor promoter tetradecanoyl phorbol acetate (TPA). Using deletion mapping, the TPA-responsive element on the p15(INK4b) promoter was located between 77 and 228 bp upstream of the transcriptional initiation site, within which the putative binding regions of early growth response gene 1 (EGR-1) and stimulatory protein 1 (SP-1) were found. Gene expression of EGR-1, Snail and SP-1 can be induced by TPA within 0.5-6 h. In addition, basal levels of SP-1, but not of the other two transcriptional factors, were observed. Blockade of TPA-induced gene expression of Snail, EGR-1 or SP-1 suppressed activation of the p15-pro228 reporter plasmid harboring the TPA-responsive element. More detailed deletion mapping and site-directed mutagenesis further concluded that the overlapping EGR-1/SP-1-binding site was required for TPA-induced p15-pro228 activation. In an EMSA, a DNA-protein complex was elevated by TPA, which can be blocked by antibodies against EGR-1, SP-1 or Snail at 6 h. Immunoprecipitation/western blotting demonstrated that TPA could trigger the association of EGR-1 with Snail or SP-1. Furthermore, a double chromatin immunoprecipitation assay verified that EGR-1 could form a complex with Snail or SP-1 on the TPA-responsive element after treatment with TPA for 2-6 h. Finally, we demonstrated a novel Snail-target region which could be bound by Snail and was also required for TPA-induced p15-pro228 activation. In conclusion, Snail associates with EGR-1 and SP-1 to mediate TPA-induced transcriptional upregulation of p15(INK4b) in HepG2.
蜗牛是一种多功能转录因子,在许多不同的情况下被描述为抑制因子。在一些与肿瘤进展和细胞周期阻滞相关的情况下,也被提出为激活因子。本研究探讨了蜗牛上调 HepG2 中肿瘤促进剂十四烷酰佛波醇乙酸酯 (TPA) 诱导的 CDK 抑制剂 p15(INK4b) 基因表达的详细机制。通过缺失作图,发现 p15(INK4b) 启动子上的 TPA 反应元件位于转录起始位点上游 77 至 228 bp 之间,其中发现了早期生长反应基因 1 (EGR-1) 和刺激蛋白 1 (SP-1) 的假定结合区域。EGR-1、蜗牛和 SP-1 的基因表达可在 TPA 作用 0.5-6 h 内诱导。此外,还观察到基础水平的 SP-1,但没有其他两种转录因子。阻断 TPA 诱导的蜗牛、EGR-1 或 SP-1 基因表达可抑制携带 TPA 反应元件的 p15-pro228 报告质粒的激活。更详细的缺失作图和定点诱变进一步表明,重叠的 EGR-1/SP-1 结合位点是 TPA 诱导 p15-pro228 激活所必需的。在 EMSA 中,TPA 可升高 DNA-蛋白复合物,该复合物可在 6 h 时被针对 EGR-1、SP-1 或蜗牛的抗体阻断。免疫沉淀/蛋白质印迹表明,TPA 可触发 EGR-1 与蜗牛或 SP-1 结合。此外,双染色质免疫沉淀测定验证了 TPA 可在 TPA 处理 2-6 h 后在 TPA 反应元件上形成 EGR-1 与蜗牛或 SP-1 的复合物。最后,我们证明了一个新的蜗牛靶区域,该区域可被蜗牛结合,并且是 TPA 诱导的 p15-pro228 激活所必需的。总之,蜗牛与 EGR-1 和 SP-1 结合,介导 HepG2 中 TPA 诱导的 p15(INK4b) 转录上调。
