Walsh M J, Shue G, Spidoni K, Kapoor A
Department of Pediatrics, Mount Sinai School of Medicine, New York, New York 10029.
J Biol Chem. 1995 Mar 10;270(10):5289-98. doi: 10.1074/jbc.270.10.5289.
The cell cycle-dependent transcription factor, E2F-1, regulates the cyclin-like species of the DNA repair enzyme uracil-DNA glycosylase (UDG) gene in human osteosarcoma (Saos-2) cells. We demonstrate, through the deletion of the human UDG promoter sequences, that expression of E2F-1 activates the UDG promoter through several E2F sites. The major putative downstream site for E2F, located in the first exon, serves as a target for E2F-1/DP1 complex binding in vitro. We also provide evidence for the functional relationship between the cyclin-like UDG gene product and E2F. High levels of UDG expression in a transient transfection assay result in the down-regulation of transcriptional activity through elements specific for E2F-mediated transcription. Overexpression of UDG in Saos 2 cells was observed to delay growth late in G1 phase and transiently arrest these cells from progressing into the S phase. This hypothetical model integrates one mechanism of DNA repair with the cell cycle control of gene transcription, likely through E2F. This implicates E2F as a multifunctional target for proteins and enzymes, possibly, responsive to DNA damage through the negative effect of UDG on E2F-mediated transcriptional activity.
细胞周期依赖性转录因子E2F-1可调控人骨肉瘤(Saos-2)细胞中DNA修复酶尿嘧啶-DNA糖基化酶(UDG)基因的细胞周期蛋白样亚型。我们通过缺失人UDG启动子序列证明,E2F-1的表达通过多个E2F位点激活UDG启动子。位于第一个外显子中的主要假定E2F下游位点,在体外作为E2F-1/DP1复合物结合的靶点。我们还提供了细胞周期蛋白样UDG基因产物与E2F之间功能关系的证据。在瞬时转染实验中,高水平的UDG表达通过E2F介导转录的特异性元件导致转录活性下调。在Saos 2细胞中观察到UDG的过表达会延迟G1期后期的生长,并使这些细胞暂时停滞进入S期。这个假设模型将一种DNA修复机制与基因转录的细胞周期控制整合在一起,可能是通过E2F实现的。这意味着E2F是蛋白质和酶的多功能靶点,可能通过UDG对E2F介导的转录活性的负面影响来响应DNA损伤。
