Hannay Jonathan A F, Liu Juehui, Zhu Quan-Sheng, Bolshakov Svetlana V, Li Lan, Pisters Peter W T, Lazar Alexander J F, Yu Dihua, Pollock Raphael E, Lev Dina
Department of Surgical Oncology, The University of Texas M. D. Anderson Cancer Center, Houston, TX 77030, USA.
Mol Cancer Ther. 2007 May;6(5):1650-60. doi: 10.1158/1535-7163.MCT-06-0636.
We investigated whether Rad51 overexpression plays a role in soft tissue sarcoma (STS) chemoresistance as well as the regulatory mechanisms underlying its expression. The studies reported here show that Rad51 protein is overexpressed in a large panel of human STS specimens. Human STS cell lines showed increased Rad51 protein expression, as was also observed in nude rat STS xenografts. STS cells treated with doxorubicin exhibited up-regulation of Rad51 protein while arrested in the S-G(2) phase of the cell cycle. Treatment with anti-Rad51 small interfering RNA decreased Rad51 protein expression and increased chemosensitivity to doxorubicin. Because we previously showed that reintroduction of wild-type p53 (wtp53) into STS cells harboring a p53 mutation led to increased doxorubicin chemosensitivity, we hypothesized that p53 participates in regulating Rad51 expression in STS. Reintroduction of wtp53 into STS cell lines resulted in decreased Rad51 protein and mRNA expression. Using luciferase reporter assays, we showed that reconstitution of wtp53 function decreased Rad51 promoter activity. Deletion constructs identified a specific Rad51 promoter region containing a p53-responsive element but no p53 consensus binding site. Electrophoretic mobility shift assays verified activator protein 2 (AP2) binding to this region and increased AP2 binding to the promoter in the presence of wtp53. Mutating this AP2 binding site eliminated the wtp53 repressive effect. Furthermore, AP2 knockdown resulted in increased Rad51 expression. In light of the importance of Rad51 in modulating STS chemoresistance, these findings point to a potential novel strategy for molecular-based treatments that may be of relevance to patients burdened by STS.
我们研究了Rad51过表达在软组织肉瘤(STS)化疗耐药中是否起作用及其表达的调控机制。本文报道的研究表明,Rad51蛋白在大量人类STS标本中过表达。人类STS细胞系中Rad51蛋白表达增加,在裸鼠STS异种移植瘤中也观察到这种情况。用阿霉素处理的STS细胞在细胞周期的S-G(2)期停滞时,Rad51蛋白表达上调。用抗Rad51小干扰RNA处理可降低Rad51蛋白表达并增加对阿霉素的化学敏感性。因为我们之前表明,将野生型p53(wtp53)重新导入携带p53突变的STS细胞会导致阿霉素化学敏感性增加,所以我们推测p53参与调控STS中Rad51的表达。将wtp53重新导入STS细胞系会导致Rad51蛋白和mRNA表达降低。使用荧光素酶报告基因检测,我们发现恢复wtp53功能会降低Rad51启动子活性。缺失构建体鉴定出一个特定的Rad51启动子区域,该区域含有一个p53反应元件,但没有p53共有结合位点。电泳迁移率变动分析证实激活蛋白2(AP2)与该区域结合,并且在存在wtp53的情况下AP2与启动子的结合增加。突变这个AP2结合位点消除了wtp53的抑制作用。此外,敲低AP2会导致Rad51表达增加。鉴于Rad51在调节STS化疗耐药中的重要性,这些发现指出了一种潜在的基于分子的治疗新策略,这可能与受STS困扰的患者相关。
